1
Mark L Hlavinka, Errun Ding, Paul DesLauriers, Yongwoo Inn, Lili Cui, Qing Yang, Ashish Sukhadia, Guylaine St Jean, Richard M Buck: Higher density polyolefins with improved stress crack resistance. Chevron Phillips Chemical Company, Merchant & Gould P C, October 13, 2015: US09156970 (10 worldwide citation)

Disclosed herein are polymerization processes for the production of olefin polymers. These polymerization processes can employ a catalyst system containing two or three metallocene components, resulting in ethylene-based copolymers that can have a medium density and improved stress crack resistance.


2
Mark L Hlavinka, Errun Ding, Paul DesLauriers, Yongwoo Inn, Lili Cui, Qing Yang, Ashish Sukhadia, Guylaine St Jean, Richard M Buck: Higher density polyolefins with improved stress crack resistance. Chevron Phillips Chemical Company, Merchant & Gould P C, July 19, 2016: US09394393 (3 worldwide citation)

Disclosed herein are polymerization processes for the production of olefin polymers. These polymerization processes can employ a catalyst system containing two or three metallocene components, resulting in ethylene-based copolymers that can have a medium density and improved stress crack resistance.


3
Mark L Hlavinka, Errun Ding, Paul DesLauriers, Yongwoo Inn, Lili Cui, Qing Yang, Ashish M Sukhadia, Guylaine St Jean, Richard M Buck: Higher density polyolefins with improved stress crack resistance. Chevron Phillips Chemical Company, Merchant & Gould P C, March 28, 2017: US09605100

Disclosed herein are polymerization processes for the production of olefin polymers. These polymerization processes can employ a catalyst system containing two or three metallocene components, resulting in ethylene-based copolymers that can have a medium density and improved stress crack resistance.


4
Higher Density Polyolefins With Improved Stress Crack Resistance. Chevron Phillips Chemical Company, March 5, 2015: US20150065669-A1

Disclosed herein are polymerization processes for the production of olefin polymers. These polymerization processes can employ a catalyst system containing two or three metallocene components, resulting in ethylene-based copolymers that can have a medium density and improved stress crack resistance.


5
Higher Density Polyolefins With Improved Stress Crack Resistance. December 31, 2015: US20150376312-A1

Disclosed herein are polymerization processes for the production of olefin polymers. These polymerization processes can employ a catalyst system containing two or three metallocene components, resulting in ethylene-based copolymers that can have a medium density and improved stress crack resistance.


6
Higher Density Polyolefins With Improved Stress Crack Resistance. October 20, 2016: US20160304644-A1

Disclosed herein are polymerization processes for the production of olefin polymers. These polymerization processes can employ a catalyst system containing two or three metallocene components, resulting in ethylene-based copolymers that can have a medium density and improved stress crack resistance.