Polymer Tech

D Damping :   The quality of an elastomer to absorb forced Vibrationsl energy. de de la poulie de tension, la bande est tendue de manière 강제 진동 에너지를 흡수하는 엘라스토머의 품질 Date Code :  In hose identification , Any combination of numbers, letters, symbols or other methods used by manufacturer to identify the time of manufacture of a product. 호스 식별 , 제품 제조 시간을 확인하기 위해 제조업체에서 사용하는 숫자 , 문자 , 기호 또는 기타 방법의 조합 . Deburr  : To remove ragged edges from the inside diameter of a hose end; an important fabrication step for assembling hose of fluropolymer in order to insure a good seal. 호스 끝의 안쪽 지름에서 울퉁불퉁 한 가장자리를 제거하려면  좋은 밀봉을 보장하기 위해 플루오로 폴리머의 호스를 조립하는 중요한 제조 단계 . Deflashing :  Any of various processes used to remove the waste edge from a moulded rubber part. 성형 된 고무 부분에서 폐기물 가장자리를 제거하는 데 사용되는 다양한 공정. Dielectric properties :  The ability if a material to resist puncture due to electric stress. DeMattia Flex Test  – This laborato

C Cement : Unvulcanized raw or compounded rubber in a suitable solvent used as an adhesive or sealant.   접착제 또는 밀봉 제로 사용되는 적절한 용매에서 미가공 된 합성 고무 또는 가황되지 않은 고무. Clay : Commonly used as an extender in rubber.Treated clay reinforce the rubber and are termed hard clay. Those which do not  provide reinforcement are called soft clay. 일반적으로 고무에 extender로 사용됩니다. 치료 점토는 고무를 보강하고 하드 클레이라고합니다. 보강을 제공하지 않는 사람들은 부드러운 점토라고합니다. Chloroprene    – 2 – Chloro, 1, 3 butadiene, CH2CC1CHCH2, monomer for neoprene rubber. Compound : A term used to a mixture of polymers and other ingredients to produce a usable rubber material. 사용 가능한 고무 재료를 생산하기 위해 중합체와 다른 성분의 혼합물에 사용되는 용어. Compression ratio : In hose, a measurement shown in percentages reflecting axial compressibility of a duct. 호스에서는 측정 값이 백분율로 표시됩니다 Compression set : The amount by which a rubber specimens fails to return to its original shape after release of compressive load. 압축 하중이 풀린 후 고무 표본이 원래 모양으로 돌아 가지 않는 양. Cond

X  SECTION RING S eals that approximate to an X section are manufactured as an alternative to O-rings. The cross-section may vary from something approaching a square section with lobes,  X-rings offer some potential benefits for certain applications. There are two indi-vidual sealing surfaces, so minor damage is less likely to lead to leakage. The cross-section is more resistant to spiral twisting with cyclic pressure. The mould parting line is not on the sealing surface of radial sealing applications, as it is with an O-ring. Of particular interest is that the elastomer interference is achieved by a combination of squeeze and deflection of the seal section.  would be acceptable for O-rings. However, because of the more compliant cross-section the pressure range is more limited. Depending on the actual cross-sectional geometry it may be limited to pressures in the range of 8–10 bar. Although they are more resistant to rolling than O-rings,

RECTANGULAR SECTION RINGS Rectangular section rings are widely used. They can generally be considered to be interchangeable with elastomer O-rings. They may be manufactured by moulding for high volumes but are also lathe cut from extruded tube. A particular benefit ofrectangular rings is that they will not flex under cyclic pressure. They will therefore be less prone to leakage due to flexing and wear,  For this reason theyare used as an alternative to O-rings on some high duty hydraulic equipment and similar applications. Another familiar application is oil filters on automotive engines,where improved stability during fitting is an important consideration. The rings may be of rectangular or square cross-section, depending on the application and manufacturing methods. O RING AND RECTANGULAR RINGS 1. Without  compression 2. With Compression 3.With Compression and pressure activated. 사각형 단면 링이 널리 사용됩니다. 그들은 일반적으로 엘라스토머 O- 링과 호환 가능. 이들은 성형에 의해 제조 될 수있다. 높은 볼륨

High Pressure Hydraulic hose In  recent years hydraulic has grown steadily and this trends is likely to continue well into the next century. The technological demands made on hydraulic hose manufactures have also increased and will intensify further in parallel  with market requirements for high pressure hoses. Pressure levels available for high pressure hoses have increased inordinately with improved design and the wire industry has provided a higher strength product to give designer the necessary material to facilitate these advances. Larger diameter wires with very high tensile strengths are now available which have the processing characteristics necessary for hose manufacture. Aramid textile fiber has also played a significant role in allowing the production of higher  pressure hoses particularly for the offshore oil industy. Hoses have become slimmer in wall, lighter in weight and more flexible thus they are able to work at lower bend radii and with capability