Production Stages
Forming
In mold production and designs, criteria such as customer expectations, mold manufacturing cost, conformity to manufacturing conditions, market competition conditions, maximum efficiency and continuity of product quality are taken into consideration.
Preparation of Dough and Mixture
Natural Rubber-NR, Nitrile Rubber-NBR, Chloroprene Rubber-CR, Ethylene Propylene Diene Rubber-EPDM, Fluorocarbon / Viton® Rubber-FKM, Silicone Rubber-VMQ, Hydrogenated Nitrile Rubber-HNBR, Butadiene Rubber-BR, Styrene Butadiene Rubber- The most suitable dough is prepared in the most economical way by taking into consideration the criteria such as the purpose of the product, its resistance to the operating conditions of the product from the above mentioned rubber types such as SBR.
Raw Materials and Properties We Use
| Usage Areas | Twisted Vibration Pads, Motor Connections, Diaphragm Iml. |
| Feature | High degree of rupture and tear resistance, high elasticity, low permanent deformation and spreading properties |
| Swelling Resistance | If the temperature is not too high, it is good in water, glycol based oils, bad in mineral oils, greases and diesel. |
| Operating Temperature | Natural Rubber Exposed to High Temperature for a Long Time at -60 ° C, + 80 ° C Can Be A Little Softened After A Little Hardening First |
| Usage Areas | Thermal and Electricity Sector; Automotive industry; Food, Medicine and Construction Sector; Defense and Security Sector |
| Feature | High Heat Resistance, Low Temperature Flexibility (Good), Very Good Dielectric Property; Very Good Resistance Against Oxygen, Ozone and External Factors, and more importantly its Physical Properties It is affected by temperature change very little. Feature of Gas Tightness Higher Than Other Elastomers at Room Temperature; It is the reason of preference in fine diaphragm manufacturing. In Oxygen Free Environments, It Is Degraded By High Temperature Dipolymerization. |
| Swelling Resistance | It is bad in mineral oils and internal brake oils, medium, low molecular weight esters, aliphatic and aromatic hydrocarbons. It is useful in hot water up to 100 ° C. |
| Operating Temperature | -60 ° C, + 230 ° C. For short period, it can withstand up to + 230 ° C. Parts made from special mixtures may not show fragility at -100 ° C. |
| Usage Areas | It is used in places requiring high performance such as Aerospace Industry, Automotive Industry, Cylinder Coatings. |
| Feature | High Temperature Resistance and Chemical robustness. They have low gas permeability and show very little weight loss in vacuum. As it can delay burning; Ozone and Cracking Resistance in Light is Very Good. It shows excellent resistance to hot water and steam. |
| Swelling Resistance | Good in Mineral Oils and Greases (Even with Multiple Additives), Diesel, Aliphatic and Aromatic Hydrocarbons, Some Fireproof Hydraulic Oils, Synthetic Air Engine Oils; Bad in Fireproof Brake Fluids. |
| Operating Temperature | It can be -20 ° C, + 250 ° C (+230 ° C for Short Period) It can be -35 ° C, + 230 ° C with Special Mix. |
| Usage Areas | Radiator and Heating Hoses, White Goods Bellows and Gaskets, Conveyor Belts, Cylinder Coating, Heat, Light, Oxidation, Ozone, Aging and Weather Conditions, Good Dielectric |
| Feature | It is the best choice in extruded profile industry and sealing tapes exposed to weather conditions. |
| Swelling Resistance | Good in Aqueous and Concentrated Acids and Alkalies, Hot Water, Steam, Acids, Oxidizers, Bad in Aromatic, Aliphatic and Chlorinated Hydrocarbons. |
| Operating Temperature | Temperature: -50 ° C, + 150 ° C |
| Usage Areas | In sea water and ambient conditions, in areas exposed to sunlight, alcohol and the like, as vibration absorber |
| Feature | Excellent vibration damping, ideal for use in open areas. |
| Swelling Resistance | Good resistance to sea water and sun rays. Medium in chemicals and oils. |
| Operating Temperature | Temperature: -50 ° C, + 130 ° C |