Applications of Pressure-sensitive adhesive

High Temperature Adhesive ,High Temperature Cement,High Temperature Insulation Board,High Temperature Insulation ,Silicon Nitride Product,Aluminium Filtration Mesh,Refractory Materials,Moldables,Mastic Cements,refractory castable, กาวทนความร้อน

Pressure-sensitive adhesives are designed for either permanent or removable applications. Examples of permanent applications include safety labels for power equipment, foil tape for HVAC duct work, automotive interior trim assembly, and sound/vibration damping films. Some high performance permanent PSAs exhibit high adhesion values and can support kilograms of weight per square centimeter of contact area, even at elevated temperature. Permanent PSAs may be initially removable (for example to recover mislabeled goods) and build adhesion to a permanent bond after several hours or days.
Removable adhesives are designed to form a temporary bond, and ideally can be removed after months or years without leaving residue on the adherend. Removable adhesives are used in applications such as surface protection films, masking tapes, bookmark and note papers, price marking labels, promotional graphics materials, and for skin contact (wound care dressings, EKG electrodes, athletic tape, analgesic and transdermal drug patches, etc.). Some removable adhesives are designed to repeatedly stick and unstick. They have low adhesion and generally can not support much weight.

Structural and pressure-sensitive adhesives

High Temperature Adhesive ,High Temperature Cement,High Temperature Insulation Board,High Temperature Insulation ,Silicon Nitride Product,Aluminium Filtration Mesh,Refractory Materials,Moldables,Mastic Cements,refractory castable, กาวทนความร้อน

From Wikipedia, the free encyclopedia

Adhesives may be broadly divided in two classes: structural and pressure-sensitive. To form a permanent bond, structural adhesives harden via processes such as evaporation of solvent (for example, white glue), reaction with UV radiation (as in dental adhesives), chemical reaction (such as two part epoxy), or cooling (as in hot melt). In contrast, pressure-sensitive adhesives (PSAs) form a bond simply by the application of light pressure to marry the adhesive with the adherend. Pressure-sensitive adhesives are designed with a balance between flow and resistance to flow. The bond forms because the adhesive is soft enough to flow, or wet, the adherend. The bond has strength because the adhesive is hard enough to resist flow when stress is applied to the bond. Once the adhesive and the adherend are in proximity, there are also molecular interactions such as van der Waals forces involved in the bond, which contribute significantly to the ultimate bond strength. PSAs exhibit viscoelastic (viscous and elastic) properties, both of which are used for proper bonding.

In contrast with structural adhesives, whose strength is evaluated as lap shear strength, pressure-sensitive adhesives are characterized by their shear holding. The ability to hold in a shear mode is related to the formulation, coating thickness, rub-down, temperature, etc.

Pressure-sensitive adhesive

High Temperature Adhesive ,High Temperature Cement,High Temperature Insulation Board,High Temperature Insulation ,Silicon Nitride Product,Aluminium Filtration Mesh,Refractory Materials,Moldables,Mastic Cements,refractory castable, กาวทนความร้อน

 From Wikipedia, the free encyclopedia

Pressure-sensitive adhesive (PSA, self-adhesive, self-stick adhesive) is adhesive which forms 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 low temperatures and reduce their shear holding ability at high temperatures; special 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.

What kind of glue.

First. Adhesive fabric (Fabric Glue).

Was produced to be used for material fabric By this time the adhesive will not harm the skin. And less time to dry.

Two. Glucosamine super glue (Super Glue).

Perhaps we could call this type of glue that "Glue CA" production of chemicals called cyanobacteria acrylate. You are the glue that hold the joint practice is quite tight and dry within 10 to 30 seconds by just one square inch of adhesive bonding material that weighs more than one ton easily. The box will look like a liquid or gel.Can be put to immediate use. If the liquid is applied to materials, plastic, metal, rubber, vinyl and ceramic tiles. Girl with a gel adhesive. Materials to be used with wood and material with different pore. Applications just dipping glue surface to be identified only There are many brands to choose from and the type of adhesive that hot glue.

Adhesive types.

In the year 1951 Dr.Harry Coover has partnered with Dr.Fred Joyner led the cyanobacterium acrylate compounds to new research by the then Dr.Harry Coover moved to the Kodak Company. The Eastman Company in the State of Tennessee, USA Tel. During which they are conducting research on the heat resistance of Acrylate polymers. (Acrylate-polymer) for use in the roof (Canopies) of the jet on Dr.Fred Joyner growing film material for ethyl acrylate cyanobacterium. (Ethylcyanoacrylate) crystalline substance, he has seen it happen more attention. Seriously and has conducted research with other drivers. Cooper River until the dream came true when he brought substance acrylate polymer was produced in the year 1958 in the name of "The Eastman Compound # 910" and a favorite as well as "Super. glucosamine (Super Glue) ".

After getting to know the history then. We came to know each type of adhesive do it.

Adhesive types.

When the fracture of materials. Or that we want to connect two materials together. We often use a chemical one. Which has the ability to help coordinate things. Them with good adhesion. Chemicals that help to coordinate this, we often refer to it as the "glue" itself.

Mostly by adhesive material containing polymer is poly (Polymer), which is composed of subunits called monomers (Monomer) concatenating a long chain molecules. Similar to the paper clip to clamp together. The adhesive was then. Because of long molecular wires. That is tied to it. Now we come to know the history of the glue before it.

Glue was first produced in England around 1750 by the time it was used as raw material in the manufacture of fish glue and subsequently developed by the introduction of rubber. Nature, animal bones, starch, protein and dairy etc. Used as raw material in the manufacture of various types of glue. With the emergence of advanced even more so in the year 1942 Dr.Harry Coover, who at that time was working in the laboratory of the Kodak Research Laboratories have discovered a chemical called cyanobacteria acrylate. (Cyanoacrylate, CH NO) with cohesive and adhesive properties. He is offering a Kodak company, but the company has denied this material. Due to the application of this cohesive and adhesive properties too.

Thermal insulation

Thermal insulation

From Wikipedia, the free encyclopedia

Mineral wool Insulation, 1600 dpi scan against the grain Thermal insulation is the reduction of heat transfer (the transfer of thermal energy between objects of differing temperature) between objects in thermal contact or in range of radiative influence. Thermal insulation can be achieved with specially engineered methods or processes, as well as with suitable object shapes and materials.

Heat flow is an inevitable consequence of contact between objects of differing temperature. Thermal insulation provides a region of insulation in which thermal conduction is reduced or thermal radiation is reflected rather than absorbed by the lower-temperature body. The insulating capability of a material is measured with thermal conductivity (k).

Low thermal conductivity is equivalent to high insulating capability (R-value). In thermal engineering, other important properties of insulating materials are product density (ρ) and specific heat capacity (c).