The present invention relates to an olefin-based copolymer having novel crystalline properties and capable of providing a molded article with further improved strength and impact strength when compounded with other resins, and a method for preparing the same The olefin-based copolymer is an olefin-based copolymer comprising an ethylene repeating unit and an α-olefinic repeating unit The olefin-based copolymer comprises polymer fractions defined by three different peaks at a predetermined temperature when analyzed by cross-fractionation chromatography

Olefin-based copolymer and process for preparing same

Disclosed is a propylene-diene copolymer resin having excellent melt tension, with improved melt strength, high molecular weight and broad molecular weight distribution by using a specific metallocene catalyst system. The present invention provides a propylene-diene copolymer resin produced by polymerizing propylene and a diene compound of C4-C20 by using a metallocene catalyst system, wherein the propylene-diene copolymer resin has the melt index (2.16 kg load at 230° C.) of 0.1-100 g/10 min and the melt tension (advanced rheometric expansion system (ARES)) of 5-100 g.

Propylene-diene copolymer resin having excellent melt tension

The present disclosure provides a novel transition metal compound which exhibits excellent catalytic activity and is useful in the preparation of a polypropylene having high impact strength, and a method for preparing a homo polypropylene using the same.

Novel transition metal compound and method for preparing polypropylene using same

The present invention relates to a method for preparing a co-catalyst compound by using an anhydrous hydrocarbon solvent and a co-catalyst compound prepared thereby.

Method for preparing co-catalyst compound by using anhydrous hydrocarbon solvent

Disclosed are a catalyst having a high molecular weight by using a novel metallocene catalyst; a method for preparing a polyolefin by using the same; and a method for preparing an ethylene-propylene random copolymer having a high molecular weight and ethylene syndiotactic index and having a small crystal size, thereby having improved transparency during injection. The present invention provides a transition metal compound represented by chemical formula 1.

Polyolefin catalyst and method for preparing polyolefin by using same

The present invention relates to an improved catalyst composition having high activity as a polymerization catalyst during olefin polymerization, and a method for preparing olefin-based polymer using the same. If the catalyst composition according to the present invention is used, not only an olefin-based polymer having high molecular weight and low density, for example a polymer such as a polypropylene polymer or a propylene-alpha olefin copolymer can be prepared, but also the polymer can be obtained in improved yield.

Catalyst composition and method for preparing olefin-based polymer thereby

The present invention relates to a copolymer satisfying the following conditions: (1) density (d) is 0.85-0.89 g/cc; (2) melt index (MI, 190°C, 2.16 kg load condition) is 15-100 g/10min; (3) the number of unsaturated functional groups (total V) per 1,000 carbon atoms is 0.8 or less; and (4) the total Vs of vinylene and vinyl per 1,000 carbon atoms as measured by nuclear magnetic spectrum analysis satisfies (a) vinylene/total V=0.1-0.7 and (b) vinylene/vinyl=0.8-1.6. According to the present invention, the olefin-based copolymer, as the contents and types of unsaturated functional groups therein are adjusted, exhibits high fluidity while showing improved properties in terms of hardness, flexural strength, tensile strength, and the like.

Olefin based copolymer and preparation method for the same

The present invention relates to an olefin-based copolymer which has novel crystalline properties, and enables production of molded articles with enhanced impact strength and mechanical properties in compounding with other resins. The olefin-based copolymer includes an ethylene repeating unit and an alpha-olefin-based repeating unit. When analyzed by a temperature rising elution fractionation method, the olefin-based copolymer shows a first fraction and a second sub-crystalline fraction at a predetermined temperature respectively. When each weight average molecular weight of the first fraction and the second sub-crystalline fraction are calculated, a certain ratio is satisfied.

Olefin based copolymer having controlled crstalline porpoerty and molecular weight distribution

The present invention relates to a novel ligand compound represented by chemical formula 1, and a novel transition metal compound represented by chemical formula 2. According to the present invention, the novel ligand compound and transition metal compound have a high comonomer incorporation effect on the preparation of an olefin-based polymer having a high molecular weight while having a low density, thereby being usable as a catalyst for a polymerization reaction.

Park In Sung

Papers

Catalyst composition and method for preparing olefin-based polymer thereby

Olefin-based copolymer and process for preparing same

Olefin based copolymer and preparation method for the same

Olefin based copolymer having controlled crstalline porpoerty and molecular weight distribution

Novel ligand compound and transition metal compound