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1,3,5-Benzenetricarbonyl trichloride(TMC)
CAS:
4422 - 95 - 1
It is mainly used as a fine chemical to produce the RO membranes which can be used for the water purification as well as the seawater purification ( desalination).
Molecular Formula: C 6H3(COCl)3 Molecular Weight: 265.48 CAS: 4422-95-1
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Molecular Formula: C 6H3(COCl)3 Molecular Weight: 265.48 CAS: 4422-95-1
CAS:
100-20-9
TCL can be used as monomer in a variety of performance polymers and fibers, where it imparts flame resistance, chemical resistance, temperature stability and very high strength. In addition, TCL is also used in the production of pesticides and medication as well as worked as an effective water scavenger, used to stabilize isocyanates and urethane prepolymers.
CAS: 100-20-9 Molecular Formula: C8H4Cl2O2 Molecular Weight: 203.0
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CAS: 100-20-9 Molecular Formula: C8H4Cl2O2 Molecular Weight: 203.0
CAS:
SL HTPA is an industrial high-temperature nylon chip made from hexamethylenediamine, terephthalic acid, isophthalic acid, adipic acid, caprolactam, and decamethylenediamine through salification, polymerization, drying, and granulation. It has advantages such as high temperature resistance, corrosion resistance, and low water absorption, and can meet the production requirements of extrusion, injection molding, and molding. It is widely used in precision molding injection parts in the fields of electronic connectors, LEDs, and low-voltage electrical appliances, as well as high-temperature resistant parts around automobile engines, and fuel tanks and pipelines resistant to fuel and solvents.
This series has the highest high-temperature rigidity and the lowest water absorption rate among the existing grades of Sanli New Materials. It has stable mechanical properties and excellent chemical resistance in both dry and humid environments.
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CAS:
SL HTPA is an industrial high-temperature nylon chip made from hexamethylenediamine, terephthalic acid, isophthalic acid, adipic acid, caprolactam, and decamethylenediamine through salification, polymerization, drying, and granulation. It has advantages such as high temperature resistance, corrosion resistance, and low water absorption, and can meet the production requirements of extrusion, injection molding, and molding. It is widely used in precision molding injection parts in the fields of electronic connectors, LEDs, and low-voltage electrical appliances, as well as high-temperature resistant parts around automobile engines, and fuel tanks and pipelines resistant to fuel and solvents.
This series has super fluidity and excellent mechanical properties among the existing grades of Sanli New Materials. Due to the presence of PA66 monomer in the components, the water absorption rate is slightly higher than that of the 13 series, and the toughness is improved compared with the 13 series.
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CAS:
SL HTPA is an industrial high-temperature nylon chip made from hexamethylenediamine, terephthalic acid, isophthalic acid, adipic acid, caprolactam, and decamethylenediamine through salification, polymerization, drying, and granulation. It has advantages such as high temperature resistance, corrosion resistance, and low water absorption, and can meet the production requirements of extrusion, injection molding, and molding. It is widely used in precision molding injection parts in the fields of electronic connectors, LEDs, and low-voltage electrical appliances, as well as high-temperature resistant parts around automobile engines, and fuel tanks and pipelines resistant to fuel and solvents.
This series has the best toughness and mechanical properties among the existing grades of Sanli New Materials. Due to the presence of PA6 monomer in the components, the water absorption rate is slightly higher than that of the 12 series, and it can be easily injection-molded into products with a good surface at a low mold temperature.
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CAS:
SL HTPA is an industrial high-temperature nylon chip made from ethylenediamine, terephthalic acid, isophthalic acid, adipic acid, caprolactam, and decamethylenediamine through salification, polymerization, drying, and granulation. It has advantages such as high temperature resistance, corrosion resistance, and low water absorption, and can meet the production requirements of extrusion, injection molding, and molding. It is widely used in precision molding injection parts in the fields of electronic connectors, LEDs, and low-voltage electrical appliances, as well as high-temperature resistant parts around automobile engines, and fuel tanks and pipelines resistant to fuel and solvents.
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Complete series of olefin hydroformylation technology
CAS:
Complete series of olefin hydroformylation technology
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