mPAO technology for any viscosity grade from 2cSt to 15000cSt.
1. Higher viscosity index
2. Low pour point, high fluidity at low temperature
3. High stability and longer oil change intervals (save fuel consumption by at least 4 ~ 5%)
Linear alpha-olefins (LAO) by ethylene oligomerization technology
Linear alpha-olefin (LAO) is an important raw material for the production of high-performance polyolefins, high-end lubricating oils, plasticizers, surfactants, etc. and can be used for the production of other fine chemical and functional chemical intermediates. Apalene technology has achieved with high catalyst activity, high linearity and high purity product with a less than 1% polymer.
Octene-1 technology by ethylene tetramerization
1-Octene is a linear α-olefin mainly used as a comonomer in the synthesis of POE and linear low-density polyethylene (LLDPE) and also a key chemical raw material for the production of elastomer POE. 1-Octene can be used as raw materials for poly-alpha olefin (PAO). Apalene technology has achieved with high temperature, no MAO and low manufacture cost system with a less than 0.5% polymer.
Hexene-1 technology by ethylene trimerization
Hexene-1 is an important comonomer for the production of high-performance high-density polyethylene (HDPE) and linear low-density polyethylene (LLDPE). It is also an important raw materials for the production of fine chemical products such as perfumes, dyes, plasticizers, surfactants, fatty alcohols, etc. Apalene technology has achieved with high catalyst activity, high linearity and high purity product with a less than 1% polymer.
Polyolefin elastomer (POE) is a universal plastic that made by metallocene technology by polymerization of ethylene and α-olefins. In many respects, its performance index exceeds that of ordinary elastomers. POE has high heat-resistant oxygen aging, and the dual characteristics of plastic and rubber have excellent comprehensive performance. Therefore, POE can be regarded as a bridge product between plastic and rubber, and it is a new type of elastomer material with broad application prospects. Apalene technology has achieved with high catalyst activity and low manufacture cost.
It has many physical and chemical properties that make it suitable for a wide range of industrial applications such as paper-coating, crayons, packaging, ink and leather auxiliaries. Others are food additives and paints. Apalene technology has achieved with narrow molecular weight distribution and low manufacture cost.
Polymethylpentene TPX technology
TPX is a commercial poly (4-methylpentene) resin. TPX has excellent electrical characteristics and chemical resistance like PE and PP. It is the only material in transparent resin that does not cause cracking due to lubricants or chemicals. TPX is the lightest of all plastic. The surface hardness is low and non-toxic. The light transmission performance is between plexiglass and polystyrene. Advantage is that the light transmittance of TPX does not change with the change of processing conditions, nor with the thickness of the product, so it is suitable for transparent products.
Ultra high molecular weight polyethylene (UHMWPE)
UHMWPE is a linear structure of thermoplastic engineering plastics with excellent comprehensive performance. It is used to replace carbon steel, stainless steel, bronze, etc. in the fields of prevention, papermaking, food machinery, transportation, ceramics, coal, etc.