Difference between revisions of "Pressure sensitive adhesives"

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==Dashboard==
 
==Dashboard==
Dolcera dahsboard provides quick and easy navigation through the technology segments. Below is the snapshot of how it look like. Click on the link [http://client.dolcera.com/dashboard/dashboard.html?workfile_id=262 '''Dolcera Dashboard'''] for Pressure Sensitive Adhesives.  
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Dolcera dashboard provides quick and easy navigation through the technology segments. Below is the snapshot of how it look like. Click on the link [http://www.dolcera.com/auth/dashboard/dashboard.php?workfile_id=262 '''Dolcera Dashboard'''] for Pressure Sensitive Adhesives.  
  
[http://client.dolcera.com/dashboard/dashboard.html?workfile_id=262 '''Dolcera Dashboard''']
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[http://www.dolcera.com/auth/dashboard/dashboard.php?workfile_id=262 '''Dolcera Dashboard''']
  
 
[[image:dashboard.jpg|center|500 px]]
 
[[image:dashboard.jpg|center|500 px]]
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# Water is found in drops; perfect spheres. It’s hard to imagine water behaving any other way due to cohesion and water molecules stick to other surfaces due to adhesion.[http://images.google.com/imgres?imgurl=http://www.ccs.k12.in.us/chsBS/kons/kons/images/water-droplet.jpg&imgrefurl=http://www.ccs.k12.in.us/chsBS/kons/kons/physical_properties_of_water.htm&h=168&w=238&sz=15&hl=en&start=4&tbnid=UrmkX2TGv_os2M:&tbnh=77&tbnw=109&prev=/images%3Fq%3Dwater%2Badhesion%26gbv%3D2%26svnum%3D10%26hl%3Den%26sa%3DG Source]
 
# Water is found in drops; perfect spheres. It’s hard to imagine water behaving any other way due to cohesion and water molecules stick to other surfaces due to adhesion.[http://images.google.com/imgres?imgurl=http://www.ccs.k12.in.us/chsBS/kons/kons/images/water-droplet.jpg&imgrefurl=http://www.ccs.k12.in.us/chsBS/kons/kons/physical_properties_of_water.htm&h=168&w=238&sz=15&hl=en&start=4&tbnid=UrmkX2TGv_os2M:&tbnh=77&tbnw=109&prev=/images%3Fq%3Dwater%2Badhesion%26gbv%3D2%26svnum%3D10%26hl%3Den%26sa%3DG Source]
  
===Pressure Sensitive Adhesive(PSA)===
+
==Application of PSA==
# Pressure sensitive adhesives are adhesives that adhere to a variety of substrates when applied with pressure.
+
# The primary mode of bonding for a pressure sensitive adhesive is not chemical or mechanical but polar attraction to the substrate surface.
+
# Applied pressure is necessary in order to achieve sufficient wet-out onto the substrate surface to provide adequate adhesion. [http://www.chemsultants.com/latestprods/adhesive_definitions.html Source]
+
  
 +
===Application in electronics and electrical industry===
  
[[image: Sealeant in adhesive.jpg|center|500 px]]
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Electrical grade PSAs are critical components in the design many of today's electrical and electronic components in the electrical industry. The construction of this type of PSA is difficult since lower concentration of conductive filler must be used in order to prevent the drying out of polymer by the conductive filler, with attendant loss of tack. The conductivity of electrically conductive PSA in the direction of pressure action is to a certain extend depend on the direction of pressure applied [http://www.springerlink.com/content/j5448654801gg60q/ Florian, 2003]
 +
 
 +
Electrical grade PSAs are designed and manufactured using materials using material that are physically and chemically stable in the presence of humidity and electrical stress. The acrylic high tack PSAs works very well in static and dynamic joints. The PSA agents are used in three forms i.e. modified aqueous dispersions or solutions in different solvents and as hot melts adhesives. PSA tapes find application in electronic assemblies [http://www.calce.umd.edu/articles/abstracts/2004/assemblies.htm Reliability of Pressure-Sensitive Adhesive Tapes for Heat Sink Attachment in Air-Cooled Electronic Assemblies]
 +
 
 +
[[Image: PSA tapes.jpg|thumb|center|800px|[http://www.biztrademarket.com/User/166116/bb/insulation_tape_eho.jpg PSA tapes]]]
 +
 
 +
===Application in automobile industry===
 +
While mechanical fasteners will always be the choice when maximum torque and linear force are required in automobile industry, pressure-sensitive adhesives (PSAs) can often provide a better method of joining or bonding than traditional screws, nuts, bolts, rivets and welds.
 +
 
 +
The design, performance, and production reasons for replacing mechanical or fusion fastening methods with PSAs include, but are not limited to:
 +
 
 +
# Distributing stress over the entire bonded area: The concentrated stress of mechanical fasteners can be eliminated and design engineers can specify lighter, thinner materials without sacrificing durability and product integrity.
 +
# Bonding dissimilar materials: The ability to bond two totally different substrates can yield a superior combination for product strength and performance. PSAs are an ideal counterbalance for varying factors of expansion between surfaces, such as laminating layers of metal.
 +
# Maintaining assembled substrate integrity: Less machining and finishing means more latitude for design engineers and improved aesthetics for greater consumer appeal.
 +
# Incorporating fatigue resistance: PSAs bring great flexibility, allowing for high extension and recovery under heavy loads.
 +
# Durability by design: PSAs fill voids and gaps and can bond loose-fitting parts.
 +
Increasing production efficiency: PSAs reduce material requirements, provide product weight reduction, require fewer assembly and finishing steps, and minimize training [http://www.flexcon.com/Resource-Center/~/media/Files/PDFs/Website/Resource%20Center/White%20Papers/design%20engineering%20aspects%20of%20pressure-sensitive%20adhesives.ashx FLEXcon white paper]
 +
 
 +
 
 +
===Medical applications===
 +
 
 +
There are two essential requirements of medical PSAs, that they should stick firmly to a difficult substrate (skin) and that they should be easily and cleanly removed from that substrate when desired. These requirements would seem to be in conflict: a high peel force usually signals the ability to stick firmly, while a low force is needed when removing dressings by peeling.
 +
 
 +
A number of ways have been considered to resolve this conflict. These may be divided into two broad categories: those that make the best of existing PSA technology, broadly taking a physical approach, and those that introduce novel chemistry into the process. Physical approaches consider such details as the dependence of peel force on peel angle, peel rate, backing materials, the deformation of the skin during peeling and use of barrier films and solvents. As an alternative to simply making the best of the physics of the peeling process, various workers have devised chemical systems for making the adhesive less strongly adhering at the time of removal. These systems usually consist of introducing a ‘switch’ mechanism into a strongly adhering adhesive so that its adherence may be reduced significantly at the time of removal by operation of the ‘switch’. Means of activating the ‘switch’ include: heat (warming or cooling), application of water via an absorbent backing and exposure to visible light. These may produce physical or chemical changes in the adhesive [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TW7-43W00T1-3&_user=10&_coverDate=12%2F31%2F2001&_alid=1598193691&_rdoc=3&_fmt=high&_orig=search&_origin=search&_zone=rslt_list_item&_cdi=5555&_st=13&_docanchor=&view=c&_ct=15397&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=17b33208ec83c0db321e3d3882e5ffe3&searchtype=a Chivers, 2001]
 +
 
 +
===PSAs drive transdermal delivery===
 +
Transdermal or through-the-skin delivery of drugs has assumed an important place in drug therapy, eliminating many of the shortcomings of syringes and pills. [http://www.adhesivesresearch.com/Pharmaceutical_ARx_LLC/Pharmaceutical/Component_Applications_And_Technologies/ActiveTransdermalDeliverySystems.aspx Active Transdermal Delivery Systems] The three most commonly used adhesives used for transdermal delivery are polyisobutylenes, polyacrylates and silicones [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6VJY-3WRB3HM-6&_user=10&_coverDate=02%2F01%2F1999&_rdoc=1&_fmt=high&_orig=search&_origin=search&_sort=d&_docanchor=&view=c&_searchStrId=1598124405&_rerunOrigin=google&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=f7968d61a743de54de6d04fb28c0cf00&searchtype=a Tan and Pfister, 1999]
 +
 
 +
 
 +
[[Image: Transdermal.jpg|thumb|center|600px|[http://www.qmed.com/files/ck_images/images/Nusil.jpg Delivery to skin]]]
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 +
* In a typical '''disk drive''', PSAs are applied to the base casting to secure the motor-mounting flange and motor assembly
 +
 
 +
===Application in aerospace industry===
 +
 
 +
Aerospace manufacturers uses PSAs to assemble sheet-metal components into sub assemblies. The aerospace industry, primarily satellite manufacturers, have expressed the need for a low outgas, thermally stable, adhesive tape which can work at both high, 175ºC, and low, -100ºC, temperatures. New silicone PSA was fabricated to pass, low outgassing requirements of 1% or less Total Mass Loss (TML) and 0.1% or less Collectable Volatile Condensable Materials (CVCM) [http://www.polytec-pt.de/ger/_files/24_LowOutgasSiliconePressureSensitiveAdhesiveForAerospaceApplications2%281%29.pdf Riegler, 2005].
 +
 
 +
==Making of PSAs==
 +
 
 +
Although PSPs can be obtained by different polymerization processes (i.e., emulsion, solution, hot-melt, or radiation curing), much attention has recently been devoted to the utilization of more environmentally friendly processes such as emulsion polymerization. Soft polymer networks are commonly used as previous termpressure sensitive adhesivesnext term (PSAs). This is due to their unique ability to deform and yet to resist flow. These contradictory requirements indicate that the mechanical properties are finely tuned, and that the types of deformation upon application are carefully considered. Variety of PSAs can be prepared by mixing a linear vinyl terminated polymer with a silane terminated f-functional cross-linker. [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TW7-4VJ4WRW-1&_user=10&_coverDate=10%2F31%2F2009&_alid=1598127284&_rdoc=6&_fmt=high&_orig=search&_origin=search&_zone=rslt_list_item&_cdi=5555&_sort=r&_st=13&_docanchor=&view=c&_ct=20058&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=31aa31be0a41e917372805a44d352007&searchtype=a Jensen et al., 2009]
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 +
{|border="2" cellspacing="0" cellpadding="4" align = "center" width="70%"
 +
|align = "center" bgcolor = "#B8CCE4"|'''Sr. No.'''
 +
|align = "center" bgcolor = "#B8CCE4"|'''PSA process'''
 +
|align = "center" bgcolor = "#B8CCE4"|'''Chemical composition'''
 +
|align = "center" bgcolor = "#B8CCE4"|'''Time of launch'''
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|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''1'''
 +
|align = "center"|'''Solvent-based'''
 +
|align = "center"|Rubber/resin, acrylics, silicones
 +
|align = "center"|Since 19th century
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''2'''
 +
|align = "center"|'''Hot-melt'''
 +
|align = "center"|Block copolymers, acrylics
 +
|align = "center"|1940s
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''3'''
 +
|align = "center"|'''Emulsion (water)-based'''
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|align = "center"|Acrylics, natural and synthetic rubber, ethylene-vinyl acetate copolymer
 +
|align = "center"|1970s
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''4'''
 +
|align = "center"|'''Radiation-cured'''
 +
|align = "center"| Acrylics, rubber
 +
|align = "center"|1970s
 +
|-
 +
|}
 +
 
 +
 
 +
{|border="2" cellspacing="0" cellpadding="4" align = "center" width="80%"
 +
|align = "center" bgcolor = "#B8CCE4"|'''Sr. No.'''
 +
|align = "center" bgcolor = "#B8CCE4"|'''Properties'''
 +
|align = "center" bgcolor = "#B8CCE4"|'''Solvent-based: acrylic'''
 +
|align = "center" bgcolor = "#B8CCE4"|'''Hot-melt: styrene-isobutylene-styrene.'''
 +
|align = "center" bgcolor = "#B8CCE4"|'''Emulsion based: acrylics'''
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''1'''
 +
|align = "center"|PS performance
 +
|align = "center"|Excellent
 +
|align = "center"|Excellent
 +
|align = "center"|Very good
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''2'''
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|align = "center"|Ease of compounding
 +
|align = "center"|Moderate
 +
|align = "center"|Difficult
 +
|align = "center"|Easy
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''3'''
 +
|align = "center"|Formulation flexibility
 +
|align = "center"|Limited
 +
|align = "center"|Excellent
 +
|align = "center"|Moderate
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''4'''
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|align = "center"|Coating method flexibility
 +
|align = "center"|Limited
 +
|align = "center"|Poor
 +
|align = "center"|Excellent
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''5'''
 +
|align = "center"|Ease of changeover
 +
|align = "center"|Limited
 +
|align = "center"|Poor
 +
|align = "center"|Excellent
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''6'''
 +
|align = "center"|PSA reproducibility
 +
|align = "center"|Excellent
 +
|align = "center"|Limited
 +
|align = "center"|Excellent
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''7'''
 +
|align = "center"|Aging properties
 +
|align = "center"|Excellent
 +
|align = "center"|Poor
 +
|align = "center"|Excellent
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''8'''
 +
|align = "center"|Clarity/color
 +
|align = "center"|Excellent
 +
|align = "center"|Poor
 +
|align = "center"|Excellent
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''9'''
 +
|align = "center"|Safety/toxicity
 +
|align = "center"|Poor
 +
|align = "center"|Poor
 +
|align = "center"|Excellent
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''10'''
 +
|align = "center"|Raw material costs
 +
|align = "center"|High
 +
|align = "center"|Low
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|align = "center"|Medium
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''11'''
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|align = "center"|Coating/compounding costs
 +
|align = "center"|High
 +
|align = "center"|Medium
 +
|align = "center"|Low
 +
|-
 +
|}
 +
 
 +
===Effect of important parameters on PSA making and performance===
 +
 
 +
====Effect of polymer molecular weight and crosslinking reactions on the end-use properties of PSAs====
 +
In a study wherein polymer molecular weight and polymer microstructure were regulated using different chain transfer agent (CTA) concentrations and by addition of a diacrylic monomer (MM) it was shown that all of the measured adhesion properties strongly depend on molecular weight of the synthesized polymer and on the amount of gel phase [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TW7-4SH0Y17-1&_user=10&_coverDate=03%2F31%2F2009&_alid=1598127284&_rdoc=8&_fmt=high&_orig=search&_origin=search&_zone=rslt_list_item&_cdi=5555&_sort=r&_st=13&_docanchor=&view=c&_ct=20058&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=0c2fe11851b57347e066ff78a975a690&searchtype=a Kajtna et al., 2009]
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 +
====Effect of composition on Mechanical behaviours and fracture energy of PSAs====
 +
In a study it was shown that the mechanical behaviour depend on their composition but majority of fracture energy is dissipated on the first millimetre near the bending zone where fibrils elongation is maximum. Observations of interfaces between PSAs and glass substrate underline that fracture energy varies linearly according to the contact area [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TW7-4N2D2V9-2&_user=10&_coverDate=12%2F31%2F2007&_alid=1598127284&_rdoc=16&_fmt=high&_orig=search&_origin=search&_zone=rslt_list_item&_cdi=5555&_sort=r&_st=13&_docanchor=&view=c&_ct=20058&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=6021375899d8929d9ec349bc3fd3c01d&searchtype=a Horgnies et al., 2007]
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 +
====Effect of tackifier on PSAs====
 +
To study the effect of tackifier (such as hydrogenated cyclo-aliphatic resin) a model system consisting of polystyrene-b-polyisoprene-b-polystyrene triblock copolymer was prepared. Tackifier increased the peel adhesion significantly and the increase became stronger above 40 wt% tackifier. The higher peel adhesion was obtained in the system with the larger amount of agglomerates of tackifier in the polyisoprene matrix. [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TW7-4RJKX1T-1&_user=10&_coverDate=10%2F31%2F2008&_alid=1598155857&_rdoc=4&_fmt=high&_orig=search&_origin=search&_zone=rslt_list_item&_cdi=5555&_sort=r&_st=13&_docanchor=&view=c&_ct=18242&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=41c38a7bf066473704bf91918b843915&searchtype=a Sasaki et al., 2008]
 +
 
 +
====Effect of chain transfer agent and cross-linker concentration in making of PSAs====
 +
In a study it was shown that a constant cross-linker concentration, one can manipulate the polymer micro-structure by adding varying amounts of chain transfer agent. Three examples of these micro-structures are depicted below which show a tight gel network with long-chain sol polymers, a loose gel network with shorter sol polymers, and an imperfect gel structure with highly branched sol polymers. By manipulating the micro-structure, previous termpressure-sensitive adhesivenext term performance can be affected. [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TWW-4YG1M1T-3&_user=10&_coverDate=06%2F30%2F2010&_alid=1598155857&_rdoc=10&_fmt=high&_orig=search&_origin=search&_zone=rslt_list_item&_cdi=5573&_sort=r&_st=13&_docanchor=&view=c&_ct=18242&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=9b4d65da1531e13c4a9e3f5a986b03e4&searchtype=a Qie and Dube, 2010]
 +
 
 +
[[Image:Effect of CTA.jpg| thumb|center|300px|Effect of chain transfer agent and cross-linker concentration in making of PSAs]]
 +
 
 +
====Effect of flexible substrates on PSAs performance====
 +
The fracture energy (fracture toughness) of tapes during globally elastic unpeeling is often calculated from the relation G=P/b(1−cos θ). A study suggested that this expression is correct for elastic peeling from rigid substrates but it gives misleading results when peeling from reversible flexible substrates. [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TW7-46RKMVR-1&_user=10&_coverDate=12%2F31%2F2002&_alid=1598155857&_rdoc=14&_fmt=high&_orig=search&_origin=search&_zone=rslt_list_item&_cdi=5555&_sort=r&_st=13&_docanchor=&view=c&_ct=18242&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=5a2c01b1375cc8e2d6e2d69ed8cd8aa4&searchtype=a Steven-Fountain et al., 2002]
 +
 
 +
==PSA performance measurement==
 +
 
 +
PSAs polymeric materials effect  tack, peel and shear strength . Inherent properties such as copolymer composition and microstructure, molecular weight and distribution are among the most influential factors affecting PSA properties directly as well as indirectly through their influence on physical properties (e.g., the glass transition temperature, Tg) and thus, rheological properties of the polymer (e.g., viscoelastic regions, moduli).
 +
 
 +
Therefore, PSA is the result of a fine balance between these three major, interrelated properties.
 +
 
 +
===Tack===
 +
It is a measure of the force required to remove, say a foam gasket and its adhesive, from the substrate. It usually refers to the initial attraction of the adhesive to the substrate. Tack can be measured by four basic methods these are loop tack, rolling ball, Quick stick and probe measurement devices. [http://www.adhesivestoolkit.com/Docu-Data/NPLDocuments/P%20A%20J/PAJ%20Reports/PAJ1%20Reports/PAJ1%20Report%205.pdf Review Of Methods For The Measurement Of Tack]
 +
 
 +
===Peel strength===
 +
 
 +
Peel strength is measured as a force required to remove a standard PSA strip from a specified test surface under a standard test angle (e.g., 90° or 180°) under standard conditions. Much like tack, manufacturers control adhesion to create different products based on user requirements. After a PSA has been applied to the substrate, adhesion continues to increase for a period of time — typically 24 hr.
 +
 
 +
===Shear strength===
 +
Shear strength is the internal or cohesive strength of the adhesive mass. Usually, it is determined as the length of time it takes for a standard strip of PSA to fall from a test panel after application of a load. Usually, tack and adhesion decrease as shear strength increases. [http://www.informaworld.com/smpp/section?content=a713642457&fulltext=713240928 Emulsion-Based Pressure-Sensitive Adhesives: A Review]
 +
 
 +
 
 +
 
 +
==PSA products==
 +
 
 +
The most common products that utilize PSAs are tapes, labels, and protective films. The PSA sector is among the fastest growing in the adhesive market, making the search for new pressure-sensitive products (PSP) and applications highly competitive.
 +
 
 +
* '''PSA tapes:''' Self-adhesive materials usually produced by coating an adhesive onto a carrier and used as a continuous web.
 +
 
 +
* '''PSA labels:''' Self-adhesive laminated carrier materials. The self-adhesive layer is protected with a supplemental material (release liner).
 +
 
 +
* '''Protective films:''' Carrier material possesses built-in or built-on self-adhesive properties.
 +
 
 +
==Recycling issues with PSA==
 +
 
 +
PSAs exact a considerable cost on the paper recycling industry, an estimated $700 million per year. Most paper recycling systems converts paper into pulp in presence of water, which is then transformed back into paper. PSAs do not dissolve in water, but rather fragment into smaller particles during the repulping process. These particles are known as stickies, get deformed under heat and pressure, making them difficult to screen or filter out of the pulp. Stickies can become lodged on papermaking and can cause damage to equipment or even in the paper.  [http://www.calrecycle.ca.gov/ReduceWaste/Business/officepaper/PSAFacts.htm Source]
 +
 
 +
{|border="2" cellspacing="0" cellpadding="4" align = "center" width="90%"
 +
|align = "center" bgcolor = "#B8CCE4"|'''Sr. No.'''
 +
|align = "center" bgcolor = "#B8CCE4"|'''"Sticky" PSA Product'''
 +
|align = "center" bgcolor = "#B8CCE4"|'''Alternative Product/Procedure'''
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|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''1'''
 +
|align = "center"|Address Labels
 +
|align = "left"|1. Print addresses directly on envelopes<br>2. Using glassine (cellulose) film window or filmless window envelopes, and print mailing addresses directly on the letter to show through the window.<br>3. Handprint addresses directly on large mailing envelopes..
 +
|-
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|align = "center" bgcolor = "#B8CCE4"|'''2'''
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|align = "center"|Sticky Notes
 +
|align = "left"|1.Use scratch paper for notes and secure with paper clips.
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|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''3'''
 +
|align = "center"|Postage Stamps
 +
|align = "left"|1. Use moisture-activated postage stamps<br>2. Postal meter that prints postage directly on envelopes or that uses moisture-activated meter tape
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''4'''
 +
|align = "center"|File Folder Index Labels
 +
|align = "left"|1. Handprint file subjects directly on index tabs, instead of using an index label. When recycling file folders with index labels, tear off the index tab.
 +
|-
 +
|align = "center" bgcolor = "#B8CCE4"|'''5'''
 +
|align = "center"|Closure Tabs
 +
|align = "left"|1. Sharply folding fliers and newsletters is often sufficient to send them safely and securely through the mail.
 +
|-
 +
|}
 +
 
 +
==Search strategy==
 +
 
 +
Search strategy last updated on: 7th January 2011
 +
 +
{|border="2" cellspacing="0" cellpadding="4" align = "center" width="60%"
 +
|align = "center" bgcolor = "#95B3D7"|'''Sr. No.'''
 +
|align = "center" bgcolor = "#95B3D7"|'''Search string'''
 +
|align = "center" bgcolor = "#95B3D7"|'''Hits'''
 +
 
 +
|-
 +
|align = "center" bgcolor = "#C5BE97" colspan = "3"|'''Google'''
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''1'''
 +
|align = "center"|Pressure sensitive adhesive making
 +
|align = "center"|7,510,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''2'''
 +
|align = "center"|Pressure sensitive adhesive application
 +
|align = "center"|7,650,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''3'''
 +
|align = "center"|Pressure sensitive adhesive automobile
 +
|align = "center"|436,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''4'''
 +
|align = "center"|Pressure sensitive adhesive automotive
 +
|align = "center"|479,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''5'''
 +
|align = "center"|Pressure sensitive adhesive drug delivery
 +
|align = "center"|275,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''6'''
 +
|align = "center"|Pressure sensitive adhesive tack*
 +
|align = "center"|354,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''7'''
 +
|align = "center"|Pressure sensitive adhesive product
 +
|align = "center"|8,120,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''8'''
 +
|align = "center"|Pressure sensitive adhesive recycl*
 +
|align = "center"|447,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#C5BE97" colspan = "3"|'''Google scholar'''
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''1'''
 +
|align = "center"|Pressure sensitive adhesive making
 +
|align = "center"|21,50,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''2'''
 +
|align = "center"|Pressure sensitive adhesive application
 +
|align = "center"|21,50,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#C5BE97" colspan = "3"|'''Scirus'''
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''1'''
 +
|align = "center"|Pressure sensitive adhesive making
 +
|align = "center"|130,055
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''2'''
 +
|align = "center"|Pressure sensitive adhesive application
 +
|align = "center"|200,950
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''3'''
 +
|align = "center"|Pressure sensitive adhesive product
 +
|align = "center"|136,169
 +
 
 +
|-
 +
|align = "center" bgcolor = "#C5BE97" colspan = "3"|'''Sciencedirect'''
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''1'''
 +
|align = "center"|Pressure sensitive adhesive electronics
 +
|align = "center"|2,450
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''2'''
 +
|align = "center"|Pressure sensitive adhesive making
 +
|align = "center"|7,212
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''3'''
 +
|align = "center"|Pressure sensitive adhesive application
 +
|align = "center"|15,405
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''4'''
 +
|align = "center"|Pressure sensitive adhesive automobile
 +
|align = "center"|951
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''5'''
 +
|align = "center"|Pressure sensitive adhesive automotive
 +
|align = "center"|1,406
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''6'''
 +
|align = "center"|Pressure sensitive adhesive drug delivery
 +
|align = "center"|2,876
 +
 
 +
|-
 +
|align = "center" bgcolor = "#C5BE97" colspan = "3"|'''Springerlink'''
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''1'''
 +
|align = "center"|Pressure sensitive adhesive making
 +
|align = "center"|2,149
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''2'''
 +
|align = "center"|Pressure sensitive adhesive application
 +
|align = "center"|3,901
 +
 
 +
|-
 +
|align = "center" bgcolor = "#C5BE97" colspan = "3"|'''Google images'''
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''1'''
 +
|align = "center"|Pressure sensitive adhesive making
 +
|align = "center"|3,580,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''2'''
 +
|align = "center"|Pressure sensitive adhesive application
 +
|align = "center"|2,210,000
 +
 
 +
|-
 +
|align = "center" bgcolor = "#95B3D7"|'''3'''
 +
|align = "center"|Pressure sensitive adhesive electronics
 +
|align = "center"|1,690,000
 +
 
 +
|}
  
 
==Market Information==
 
==Market Information==
Line 105: Line 475:
 
* Total number of patents - 2272
 
* Total number of patents - 2272
 
* Total number of unique patent families - 1483
 
* Total number of unique patent families - 1483
 +
 +
==<span style="color:#C41E3A">Like this report?</span>==
 +
<p align="center"> '''This is only a sample report with brief analysis''' <br>
 +
'''Dolcera can provide a comprehensive report customized to your needs'''</p>
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 +
|style="background:lightgrey" align = "center"  colspan = "3"|'''[mailto:info@dolcera.com <span style="color:#0047AB">Buy the customized report from Dolcera</span>]'''
 +
|-
 +
| align = "center"| [http://www.dolcera.com/website_prod/services/ip-patent-analytics-services Patent Analytics Services]
 +
|align = "center"| [http://www.dolcera.com/website_prod/services/business-research-services Market Research Services]
 +
|align = "center"| [http://www.dolcera.com/website_prod/tools/patent-dashboard Purchase Patent Dashboard]
 +
|-
 +
|align = "center"| [http://www.dolcera.com/website_prod/services/ip-patent-analytics-services/patent-search/patent-landscapes Patent Landscape Services]
 +
|align = "center"| [http://www.dolcera.com/website_prod/research-processes Dolcera Processes]
 +
|align = "center"| [http://www.dolcera.com/website_prod/industries Industry Focus]
 +
|-
 +
|align = "center"| [http://www.dolcera.com/website_prod/services/ip-patent-analytics-services/patent-search/patent-landscapes Patent Search Services]
 +
|align = "center"| [http://www.dolcera.com/website_prod/services/ip-patent-analytics-services/alerts-and-updates Patent Alerting Services]
 +
|align = "center"| [http://www.dolcera.com/website_prod/tools Dolcera Tools]
 +
|-
 +
|}
 +
<br>
  
 
===Taxonomy for analysis===
 
===Taxonomy for analysis===
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===Taxonomy for PSA composition===
 
===Taxonomy for PSA composition===
[[Image:adhesion-final version.jpg|thumb|center|1000px|Taxonomy map - Adhesion]]
+
[[Image:adhesion-final version.jpg|thumb|center|800px|Taxonomy map - Adhesion]]
  
 
===IP Activity===
 
===IP Activity===
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|align = "center" bgcolor = "#C0C0C0"|'''Patent numbers'''
 
|align = "center" bgcolor = "#C0C0C0"|'''Patent numbers'''
 
|-
 
|-
|rowspan = "3"|3M Innovative Properties Company
+
|rowspan = "5"|3M Innovative Properties Company
 
|align = "center"|x
 
|align = "center"|x
 
|align = "center"|&nbsp;
 
|align = "center"|&nbsp;
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|2000
 
|2000
 
|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?patentnumber=6455634 US6455634]</u></font>
 
|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?patentnumber=6455634 US6455634]</u></font>
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|-
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|align = "center"|&nbsp;
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|align = "center"|&nbsp;
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|align = "center"|x
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|align = "center"|&nbsp;
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|align = "center"|&nbsp;
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|align = "center"|&nbsp;
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|align = "center"|x
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|1993
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|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?patentnumber=5612136 US5612136]</u></font>
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|-
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|align = "center"|&nbsp;
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|align = "center"|&nbsp;
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|align = "center"|&nbsp;
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|align = "center"|x
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|align = "center"|&nbsp;
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|align = "center"|&nbsp;
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|align = "center"|x
 +
|align = "center"|x
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|1993
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|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?patentnumber=5602221 US5602221]</u></font>
 
|-
 
|-
 
|American Tape Company
 
|American Tape Company
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|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?patentnumber=4335026 US4335026]</u></font>
 
|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?patentnumber=4335026 US4335026]</u></font>
 
|-
 
|-
|rowspan = "2"|Minnesota Mining and Manufacturing Company
+
 
|align = "center"|&nbsp;
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|1993
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|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?patentnumber=5602221 US5602221]</u></font>
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|-
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|align = "center"|&nbsp;
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|align = "center"|x
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|1993
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|<font color="#0000FF"><u>[http://patft.uspto.gov/netacgi/nph-Parser?patentnumber=5612136 US5612136]</u></font>
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|Nichiban Company Limited
 
|Nichiban Company Limited
 
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==Analysis Sheet==
 
==Analysis Sheet==
 
[[Media:Sample analysis sheet.xls|Sample Analysis Sheet]]
 
[[Media:Sample analysis sheet.xls|Sample Analysis Sheet]]
 +
 +
 +
==<span style="color:#C41E3A">Like this report?</span>==
 +
<p align="center"> '''This is only a sample report with brief analysis''' <br>
 +
'''Dolcera can provide a comprehensive report customized to your needs'''</p>
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{|border="2" cellspacing="0" cellpadding="4" align="center" "
 +
|style="background:lightgrey" align = "center"  colspan = "3"|'''[mailto:info@dolcera.com <span style="color:#0047AB">Buy the customized report from Dolcera</span>]'''
 +
|-
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| align = "center"| [http://www.dolcera.com/website_prod/services/ip-patent-analytics-services Patent Analytics Services]
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|align = "center"| [http://www.dolcera.com/website_prod/services/business-research-services Market Research Services]
 +
|align = "center"| [http://www.dolcera.com/website_prod/tools/patent-dashboard Purchase Patent Dashboard]
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|align = "center"| [http://www.dolcera.com/website_prod/research-processes Dolcera Processes]
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|align = "center"| [http://www.dolcera.com/website_prod/industries Industry Focus]
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|-
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<br>
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==Contact Dolcera==
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{| style="border:1px solid #AAA; background:#E9E9E9" align="center"
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|-
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! style="background:lightgrey" | Contact Dolcera
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|-
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| '''Email''': [mailto:info@dolcera.com info@dolcera.com]
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| '''Phone''': +1-650-269-7952
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Latest revision as of 05:43, 27 July 2015

Dashboard

Dolcera dashboard provides quick and easy navigation through the technology segments. Below is the snapshot of how it look like. Click on the link Dolcera Dashboard for Pressure Sensitive Adhesives.

Dolcera Dashboard

Dashboard.jpg

Overview

Pressure sensitive adhesive (PSA, self adhesive, self stick adhesive) is adhesive that forms a bond when pressure is applied to marry the adhesive with the adherend. No solvent, water, or heat is needed to activate the adhesive. It is used in pressure sensitive tapes, labels, note pads, automobile trim, and a wide variety of other products.

As the name "pressure sensitive" indicates, the degree of bond is influenced by the amount of pressure which is used to apply the adhesive to the surface.

Surface factors such as smoothness, surface energy, removal of contaminants, etc. are also important to proper bonding.

PSAs are usually designed to form a bond and hold properly at room temperatures. PSAs typically reduce or lose their tack at cold temperatures and reduce their shear holding ability at high temperatures: Specialty adhesives are made to function at high or low temperatures. It is important to choose an adhesive formulation which is designed for its intended use conditions.

Surface Energy

Measuring of Surface Energy
  1. Surface energy is a measure of how well an adhesive wets out over the surface of the material to which it is applied.
  2. The most common method of determining the surface energy is to measure the contact angle of a water droplet on the substrate surface.
  3. The contact angle between the solid and the fluid is the angle measured within the fluid, between the solid surface and the tangent plane to the liquid surface at the point of intersection.
  4. A contact angle of greater than 90° indicates that the fluid (which is ink or adhesive in this case) has not wet the surface. Conversely an angle of less than 90° means that the fluid has wet the surface - if the angle approaches zero then the surface is completely wetted by the fluid.
  5. The surface energy or the wetability of a particular substrate is measured in dynes/cm. Source

Low Surface Energy Substrates

  1. Low energy plastics, such as polypropylene (PP), polyethylene (PE) and Teflon (PTFE) are essentially "non- stick" plastics.
  2. Their molecular structure inhibits the adhesion and printing processes - this molecular structure is basically inert or inactive – these polymers are said to have a low surface energy.
  3. Materials with low surface energy (LSE) do not allow adhesives to wet out, while materials with high surface energy (HSE) provide excellent wet-out, providing the best adhesion.
  4. Rubber-based adhesives usually provide better adhesion to LSE surfaces.
  5. Some substrates require special treatment such as corona treating, primers, top coating, etc., in order to achieve better adhesion.
  6. On some LSE substrates, adhesion levels improve the longer adhesive is applied. Source

Adhesion

Adhesion
  1. Adhesion is the molecular force of attraction between unlike materials.
  2. Adhesion and cohesion, attractive forces between material bodies. A distinction is usually made between an adhesive force, which acts to hold two separate bodies together (or to stick one body to another) and a cohesive force, which acts to hold together the like or unlike atoms, ions, or molecules of a single body.
  3. For example water molecules stick to each other. This is caused by hydrogen bonds that form between the slightly positive and negative ends of neighboring molecules.
  4. Water is found in drops; perfect spheres. It’s hard to imagine water behaving any other way due to cohesion and water molecules stick to other surfaces due to adhesion.Source

Application of PSA

Application in electronics and electrical industry

Electrical grade PSAs are critical components in the design many of today's electrical and electronic components in the electrical industry. The construction of this type of PSA is difficult since lower concentration of conductive filler must be used in order to prevent the drying out of polymer by the conductive filler, with attendant loss of tack. The conductivity of electrically conductive PSA in the direction of pressure action is to a certain extend depend on the direction of pressure applied Florian, 2003

Electrical grade PSAs are designed and manufactured using materials using material that are physically and chemically stable in the presence of humidity and electrical stress. The acrylic high tack PSAs works very well in static and dynamic joints. The PSA agents are used in three forms i.e. modified aqueous dispersions or solutions in different solvents and as hot melts adhesives. PSA tapes find application in electronic assemblies Reliability of Pressure-Sensitive Adhesive Tapes for Heat Sink Attachment in Air-Cooled Electronic Assemblies

Application in automobile industry

While mechanical fasteners will always be the choice when maximum torque and linear force are required in automobile industry, pressure-sensitive adhesives (PSAs) can often provide a better method of joining or bonding than traditional screws, nuts, bolts, rivets and welds.

The design, performance, and production reasons for replacing mechanical or fusion fastening methods with PSAs include, but are not limited to:

  1. Distributing stress over the entire bonded area: The concentrated stress of mechanical fasteners can be eliminated and design engineers can specify lighter, thinner materials without sacrificing durability and product integrity.
  2. Bonding dissimilar materials: The ability to bond two totally different substrates can yield a superior combination for product strength and performance. PSAs are an ideal counterbalance for varying factors of expansion between surfaces, such as laminating layers of metal.
  3. Maintaining assembled substrate integrity: Less machining and finishing means more latitude for design engineers and improved aesthetics for greater consumer appeal.
  4. Incorporating fatigue resistance: PSAs bring great flexibility, allowing for high extension and recovery under heavy loads.
  5. Durability by design: PSAs fill voids and gaps and can bond loose-fitting parts.

Increasing production efficiency: PSAs reduce material requirements, provide product weight reduction, require fewer assembly and finishing steps, and minimize training FLEXcon white paper


Medical applications

There are two essential requirements of medical PSAs, that they should stick firmly to a difficult substrate (skin) and that they should be easily and cleanly removed from that substrate when desired. These requirements would seem to be in conflict: a high peel force usually signals the ability to stick firmly, while a low force is needed when removing dressings by peeling.

A number of ways have been considered to resolve this conflict. These may be divided into two broad categories: those that make the best of existing PSA technology, broadly taking a physical approach, and those that introduce novel chemistry into the process. Physical approaches consider such details as the dependence of peel force on peel angle, peel rate, backing materials, the deformation of the skin during peeling and use of barrier films and solvents. As an alternative to simply making the best of the physics of the peeling process, various workers have devised chemical systems for making the adhesive less strongly adhering at the time of removal. These systems usually consist of introducing a ‘switch’ mechanism into a strongly adhering adhesive so that its adherence may be reduced significantly at the time of removal by operation of the ‘switch’. Means of activating the ‘switch’ include: heat (warming or cooling), application of water via an absorbent backing and exposure to visible light. These may produce physical or chemical changes in the adhesive Chivers, 2001

PSAs drive transdermal delivery

Transdermal or through-the-skin delivery of drugs has assumed an important place in drug therapy, eliminating many of the shortcomings of syringes and pills. Active Transdermal Delivery Systems The three most commonly used adhesives used for transdermal delivery are polyisobutylenes, polyacrylates and silicones Tan and Pfister, 1999


  • In a typical disk drive, PSAs are applied to the base casting to secure the motor-mounting flange and motor assembly

Application in aerospace industry

Aerospace manufacturers uses PSAs to assemble sheet-metal components into sub assemblies. The aerospace industry, primarily satellite manufacturers, have expressed the need for a low outgas, thermally stable, adhesive tape which can work at both high, 175ºC, and low, -100ºC, temperatures. New silicone PSA was fabricated to pass, low outgassing requirements of 1% or less Total Mass Loss (TML) and 0.1% or less Collectable Volatile Condensable Materials (CVCM) Riegler, 2005.

Making of PSAs

Although PSPs can be obtained by different polymerization processes (i.e., emulsion, solution, hot-melt, or radiation curing), much attention has recently been devoted to the utilization of more environmentally friendly processes such as emulsion polymerization. Soft polymer networks are commonly used as previous termpressure sensitive adhesivesnext term (PSAs). This is due to their unique ability to deform and yet to resist flow. These contradictory requirements indicate that the mechanical properties are finely tuned, and that the types of deformation upon application are carefully considered. Variety of PSAs can be prepared by mixing a linear vinyl terminated polymer with a silane terminated f-functional cross-linker. Jensen et al., 2009


Sr. No. PSA process Chemical composition Time of launch
1 Solvent-based Rubber/resin, acrylics, silicones Since 19th century
2 Hot-melt Block copolymers, acrylics 1940s
3 Emulsion (water)-based Acrylics, natural and synthetic rubber, ethylene-vinyl acetate copolymer 1970s
4 Radiation-cured Acrylics, rubber 1970s


Sr. No. Properties Solvent-based: acrylic Hot-melt: styrene-isobutylene-styrene. Emulsion based: acrylics
1 PS performance Excellent Excellent Very good
2 Ease of compounding Moderate Difficult Easy
3 Formulation flexibility Limited Excellent Moderate
4 Coating method flexibility Limited Poor Excellent
5 Ease of changeover Limited Poor Excellent
6 PSA reproducibility Excellent Limited Excellent
7 Aging properties Excellent Poor Excellent
8 Clarity/color Excellent Poor Excellent
9 Safety/toxicity Poor Poor Excellent
10 Raw material costs High Low Medium
11 Coating/compounding costs High Medium Low

Effect of important parameters on PSA making and performance

Effect of polymer molecular weight and crosslinking reactions on the end-use properties of PSAs

In a study wherein polymer molecular weight and polymer microstructure were regulated using different chain transfer agent (CTA) concentrations and by addition of a diacrylic monomer (MM) it was shown that all of the measured adhesion properties strongly depend on molecular weight of the synthesized polymer and on the amount of gel phase Kajtna et al., 2009

Effect of composition on Mechanical behaviours and fracture energy of PSAs

In a study it was shown that the mechanical behaviour depend on their composition but majority of fracture energy is dissipated on the first millimetre near the bending zone where fibrils elongation is maximum. Observations of interfaces between PSAs and glass substrate underline that fracture energy varies linearly according to the contact area Horgnies et al., 2007

Effect of tackifier on PSAs

To study the effect of tackifier (such as hydrogenated cyclo-aliphatic resin) a model system consisting of polystyrene-b-polyisoprene-b-polystyrene triblock copolymer was prepared. Tackifier increased the peel adhesion significantly and the increase became stronger above 40 wt% tackifier. The higher peel adhesion was obtained in the system with the larger amount of agglomerates of tackifier in the polyisoprene matrix. Sasaki et al., 2008

Effect of chain transfer agent and cross-linker concentration in making of PSAs

In a study it was shown that a constant cross-linker concentration, one can manipulate the polymer micro-structure by adding varying amounts of chain transfer agent. Three examples of these micro-structures are depicted below which show a tight gel network with long-chain sol polymers, a loose gel network with shorter sol polymers, and an imperfect gel structure with highly branched sol polymers. By manipulating the micro-structure, previous termpressure-sensitive adhesivenext term performance can be affected. Qie and Dube, 2010

Effect of chain transfer agent and cross-linker concentration in making of PSAs

Effect of flexible substrates on PSAs performance

The fracture energy (fracture toughness) of tapes during globally elastic unpeeling is often calculated from the relation G=P/b(1−cos θ). A study suggested that this expression is correct for elastic peeling from rigid substrates but it gives misleading results when peeling from reversible flexible substrates. Steven-Fountain et al., 2002

PSA performance measurement

PSAs polymeric materials effect tack, peel and shear strength . Inherent properties such as copolymer composition and microstructure, molecular weight and distribution are among the most influential factors affecting PSA properties directly as well as indirectly through their influence on physical properties (e.g., the glass transition temperature, Tg) and thus, rheological properties of the polymer (e.g., viscoelastic regions, moduli).

Therefore, PSA is the result of a fine balance between these three major, interrelated properties.

Tack

It is a measure of the force required to remove, say a foam gasket and its adhesive, from the substrate. It usually refers to the initial attraction of the adhesive to the substrate. Tack can be measured by four basic methods these are loop tack, rolling ball, Quick stick and probe measurement devices. Review Of Methods For The Measurement Of Tack

Peel strength

Peel strength is measured as a force required to remove a standard PSA strip from a specified test surface under a standard test angle (e.g., 90° or 180°) under standard conditions. Much like tack, manufacturers control adhesion to create different products based on user requirements. After a PSA has been applied to the substrate, adhesion continues to increase for a period of time — typically 24 hr.

Shear strength

Shear strength is the internal or cohesive strength of the adhesive mass. Usually, it is determined as the length of time it takes for a standard strip of PSA to fall from a test panel after application of a load. Usually, tack and adhesion decrease as shear strength increases. Emulsion-Based Pressure-Sensitive Adhesives: A Review


PSA products

The most common products that utilize PSAs are tapes, labels, and protective films. The PSA sector is among the fastest growing in the adhesive market, making the search for new pressure-sensitive products (PSP) and applications highly competitive.

  • PSA tapes: Self-adhesive materials usually produced by coating an adhesive onto a carrier and used as a continuous web.
  • PSA labels: Self-adhesive laminated carrier materials. The self-adhesive layer is protected with a supplemental material (release liner).
  • Protective films: Carrier material possesses built-in or built-on self-adhesive properties.

Recycling issues with PSA

PSAs exact a considerable cost on the paper recycling industry, an estimated $700 million per year. Most paper recycling systems converts paper into pulp in presence of water, which is then transformed back into paper. PSAs do not dissolve in water, but rather fragment into smaller particles during the repulping process. These particles are known as stickies, get deformed under heat and pressure, making them difficult to screen or filter out of the pulp. Stickies can become lodged on papermaking and can cause damage to equipment or even in the paper. Source

Sr. No. "Sticky" PSA Product Alternative Product/Procedure
1 Address Labels 1. Print addresses directly on envelopes
2. Using glassine (cellulose) film window or filmless window envelopes, and print mailing addresses directly on the letter to show through the window.
3. Handprint addresses directly on large mailing envelopes..
2 Sticky Notes 1.Use scratch paper for notes and secure with paper clips.
3 Postage Stamps 1. Use moisture-activated postage stamps
2. Postal meter that prints postage directly on envelopes or that uses moisture-activated meter tape
4 File Folder Index Labels 1. Handprint file subjects directly on index tabs, instead of using an index label. When recycling file folders with index labels, tear off the index tab.
5 Closure Tabs 1. Sharply folding fliers and newsletters is often sufficient to send them safely and securely through the mail.

Search strategy

Search strategy last updated on: 7th January 2011

Sr. No. Search string Hits
Google
1 Pressure sensitive adhesive making 7,510,000
2 Pressure sensitive adhesive application 7,650,000
3 Pressure sensitive adhesive automobile 436,000
4 Pressure sensitive adhesive automotive 479,000
5 Pressure sensitive adhesive drug delivery 275,000
6 Pressure sensitive adhesive tack* 354,000
7 Pressure sensitive adhesive product 8,120,000
8 Pressure sensitive adhesive recycl* 447,000
Google scholar
1 Pressure sensitive adhesive making 21,50,000
2 Pressure sensitive adhesive application 21,50,000
Scirus
1 Pressure sensitive adhesive making 130,055
2 Pressure sensitive adhesive application 200,950
3 Pressure sensitive adhesive product 136,169
Sciencedirect
1 Pressure sensitive adhesive electronics 2,450
2 Pressure sensitive adhesive making 7,212
3 Pressure sensitive adhesive application 15,405
4 Pressure sensitive adhesive automobile 951
5 Pressure sensitive adhesive automotive 1,406
6 Pressure sensitive adhesive drug delivery 2,876
Springerlink
1 Pressure sensitive adhesive making 2,149
2 Pressure sensitive adhesive application 3,901
Google images
1 Pressure sensitive adhesive making 3,580,000
2 Pressure sensitive adhesive application 2,210,000
3 Pressure sensitive adhesive electronics 1,690,000

Market Information

  • According to a report from the Business Communications Company, the 2001 US market for specialty adhesives was about $5.7 billion, and is forecast to grow at 4.3% per year, with medical and dental applications being the fastest-growing sector at 5.9% per year. Source
  • Frost and Sullivan report the size of the European PSA market (medical and non-medical) to be $620 million in 2000, forecast to grow to $796 million in 2007. Source
  • The world value of the overall adhesives market is estimated at US $22 billion.
  • Total Market Expected to Grow at a CAGR of 9 Percent: The U.S. PSA markets for labels and narrow-web graphics is expected to growth with a CAGR of 9 percent during the years 2006–2012. The total U.S. PSA markets for labels and narrow-web graphics unit shipments are expected to continue to growth at a CAGR of 6.6 percent due to high end-user growth. The UV technology is a new technology that have started to receive wide acceptance in the industry and that segment of the industry is a fragmented and developing segment with growth rates in double digits. While the solvent-based PSAs are expected to show decreasing growth percents, the water-based and solvent-based segments are expected to growth in the lines of the total industry. Source
  • According to World Adhesives File 2000-2005, the leading handful of adhesives suppliers, including pressure sensitive companies, already controlled almost half the global market in 1999. Henkel leads the way with an estimated 12% global market share, which will probably increase to around 14% with the purchase of Dexter’s adhesives interests. Pressure sensitive suppliers 3M and Avery Dennison are ranked second and third, with 9% and 7% shares respectively, followed jointly by National Starch and H.B. Fuller — both at 6%. The newly enlarged Atofina and Rohm and Haas follow closely behind.” Source
  • Growth of the world market averages about 2-3% per year.
  • Packaging adhesives make up the majority of the market.
  • The electronic and medical adhesives market is currently experiencing the most rapid growth.
  • Market leaders by country are as follows:
    • United States - approximately 2.6 tonnes annually
    • China
    • Japan
    • Germany
    • UK
      Players logo.jpg
  • Market leaders by company(which account for one-third of the market share) are:
    • Henkel
    • 3M
    • Avery Denison
    • HB Fuller
    • National Starch
    • Atofina

Intellectual Property

Patent Search Table

  • Patent search on Micropat
  • Databases searched: USG USA EPA EPB WO JP DEG DEA DET DEU GBA FRA
Query.No. Searched Sections Years Searched Query Hits
1 Claims, Title or Abstract 1836 – Date (rubber OR acryl* OR silicone OR oil*1 OR resin*1 OR ethylen* OR isoprene OR terpene OR copolymer* OR vinyl* OR siloxane* ((acid OR anhydride) ADJ1 (acrylic OR crotonic OR (vinyl ADJ1 acetic) OR fumaric OR maleic OR malonic OR succinic OR itaconic OR citraconic)) OR polymer* OR styrene OR ester*) SAME (((pressure ADJ1 sensitive) NEAR2 (adhesive* OR glue OR paste OR (binding ADJ1 agent) OR (epoxy ADJ1 resin*) OR film) OR PSA OR PSAs) OR (adhesion* WITH (peel OR tensile OR shear) OR stick*) OR (radical* ADJ1 (initiator* OR maker*))) 76006
2 Claims, Title or Abstract 1836 – Date (((low ADJ surface ADJ energy) WITH (substrate*1 OR polymer OR compound* OR material OR film)) OR (surface ADJ1 tension) OR (surface ADJ1 rough*) OR viscosity OR (oily ADJ surface) OR (low ADJ1 energy ADJ1 surface*)) AND (polyolefin*1 OR polyethylene*1 OR polypropylene*1 OR (polyvinyl ADJ1 chloride ADJ1 film) OR (oil ADJ1 contaminated ADJ1 metal) OR polybutene OR polyisoprene*1 OR (polyvinylidene ADJ1 fluoride*) OR polytetrafluoroethylene*1 OR polyester*1 OR polyamide*1 OR polyacetal*1 OR polystyrene*1 OR polyurethane* OR polyurea OR silan* OR polycarbonate*) 75602
3 Claims, Title or Abstract 1836 – Date 1 AND 2 2272
  • Total number of patents - 2272
  • Total number of unique patent families - 1483

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Taxonomy for analysis

Taxonomy map - Adhesion

Taxonomy for PSA composition

Taxonomy map - Adhesion

IP Activity

Competitors

Major Competitors

Competitors

Composition components matrix

Assignees Rubber Silicone Polymers Acrylic Tackifying resin Plasticizer oil Carboxylic acids Acid Esters Priority Year Patent numbers
3M Innovative Properties Company x   x x x x     2000 US6630531
x   x x x       2000 US6632872
    x x         2000 US6455634
    x x       x 1993 US5612136
      x     x x 1993 US5602221
American Tape Company x         x     1997 US5798175
Ashland Oil, Inc. x   x x         1991 US5434213
Atlantic Richfield Company     x x x x     1984 US4656213
x   x x x       1996 US5817426
    x x x       1996 US5817426
x     x         1997 US6461707
Coloplast x   x   x       1980 US6437038
Dow Corning Corporation   x x     x     1970 US5916981
  x x           1990 US6337086
  x             1990 US6121368
  x x           1994 US5561203
  x x           1996 US5861472
Exxon Chemical Patents Inc.     x   x       1993 US5714254
Fujikura Ltd.                 2000 US6388556
General Electric Company   x x           2000 US6387487
H Fuller Licensing & Financing, Inc. x   x x x x     1996 US5741840
H. B. Fuller Licensing & Financing, Inc. x   x   x       1997 US5869562
Johnson & Johnson Products Inc. x   x   x x     1981 US4335026
Nichiban Company Limited x               1997 US6274235
None x     x x     x 1996 US20030136510
PPG Industries, Inc. x   x x     x   1996 US5776548
Ralf Korpman Associates, Inc. x               1992 US5760135

Technology Tree

As it is evident from the the technology tree below, although the IP activity in the area of Pressure sensitive adhesive was initiated during 1970s, companies are continuously trying new combinations of different components.

Technology tree.jpg

Key findings

  • In the medical field, pressure-sensitive adhesive tapes are used for many different applications in the hospital and health areas and also they can be used to adhere two surfaces together such as the flaps of packing material or fabric to a surface
  • In many commercial applications of pressure-sensitive adhesives, it would be preferred to use an acrylate polymer or copolymer having an intrinsic viscosity of at least about 2.5 dl/g
  • Ideally, a process for producing an acrylate-based polymer for a pressure-sensitive adhesive provides a means for controlling both molecular weight, i.e., intrinsic viscosity, and molecular weight distribution.
  • Pressure-sensitive adhesives require a delicate balance of viscous and elastic properties that result in a four-fold balance of adhesion, cohesion, stretchiness and elasticity. Pressure-sensitive adhesives generally comprise elastomers that are either inherently tacky, or elastomers or thermoplastic elastomers that are tackified with the addition of tackifying resins.

Analysis Sheet

Sample Analysis Sheet


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