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Robert Santana Phones & Addresses

  • Spring, TX
  • Houston, TX
  • 114 E Rittenhouse St, Houston, TX 77076 (713) 898-0112

Work

Company: Santana Brother's Construction and Remodeling Address: 1122 Forest Oaks Drive, Houston, TX 77017 Phones: (281) 330-0529

Professional Records

License Records

Robert S Santana

License #:
530574 - Active
Category:
Health Care
Issued Date:
Apr 5, 2010
Effective Date:
Apr 5, 2010
Expiration Date:
Dec 1, 2018
Type:
Emergency Medical Technician

Resumes

Resumes

Robert Santana Photo 1

Robert Santana

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Location:
United States
Robert Santana Photo 2

Robert Santana

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Location:
United States
Robert Santana Photo 3

Marketing And Advertising Professional

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Location:
United States
Industry:
Marketing and Advertising
Robert Santana Photo 4

Noc Shift Lead At Softlayer Technologies, Inc.

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Location:
Houston, Texas Area
Industry:
Internet
Robert Santana Photo 5

Aircraft Tech At United Airlines

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Location:
Houston, Texas Area
Industry:
Airlines/Aviation
Robert Santana Photo 6

Robert Santana

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Business Records

Name / Title
Company / Classification
Phones & Addresses
Robert K. Santana
RKS RESEARCH, LLC
Robert Santana
Director, Principal
KAOTIC CUSTOMS, INC
Business Services at Non-Commercial Site
23223 Cyn Lk, Spring, TX 77373
2217 Fm 1960 E, Houston, TX 77073
Robert Santana
Manager
Forever Living Products
Ret Misc Foods
6875 Harwin Dr, Houston, TX 77036

Publications

Us Patents

Bimodal Polyolefin Production Process And Films Therefrom

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US Patent:
6875828, Apr 5, 2005
Filed:
Feb 18, 2003
Appl. No.:
10/368818
Inventors:
Chi-I Kuo - Humble TX, US
G. McCullough Laughlin - League City TX, US
Pradeep Pandurang Shirodkar - Kingwood TX, US
Fred David Ehrman - Houston TX, US
Porter Shannon - Seabrook TX, US
Robert Lynn Santana - Baytown TX, US
Steven K. Ackerman - Baytown TX, US
Daniel Gerard O'Neil - Metuchen NJ, US
Assignee:
Univation Technologies, LLC - Houston TX
International Classification:
C08F004/44
C08F004/642
C08F004/654
C08F002/34
US Classification:
526114, 526113, 526118, 526119, 526129, 526160, 526943
Abstract:
A process of producing a bimodal polyolefin composition is described, which includes in one embodiment contacting monomers with a supported bimetallic catalyst composition for a time sufficient to form a bimodal polyolefin composition that includes a high molecular weight polyolefin component and a low molecular weight polyolefin component; wherein the supported bimetallic catalyst includes a first catalyst component that is preferably non-metallocene, and a second catalyst component that includes a metallocene catalyst compound having at least one fluoride or fluorine containing leaving group, wherein the bimetallic catalyst is supported by an enhanced silica, dehydrated at a temperature of 800 C. or more in one embodiment.

Bimodal Polyolefin Production Process And Films Therefrom

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US Patent:
6943134, Sep 13, 2005
Filed:
Sep 20, 2004
Appl. No.:
10/945462
Inventors:
Chi-I Kuo - Humble TX, US
G. McCullough Laughlin - League City TX, US
Pradeep Pandurang Shirodkar - Kingwood TX, US
Fred David Ehrman - Houston TX, US
Porter Shannon - Seabrook TX, US
Robert Lynn Santana - Baytown TX, US
Steven K. Ackerman - Baytown TX, US
Daniel Gerard O'Neil - Metuchen NJ, US
Assignee:
Univation Technologies, LLC - Houston TX
International Classification:
C08F004/642
US Classification:
502113, 502107, 502115, 502117, 502120, 502129, 502152, 502154, 526113, 526114, 526118, 526119
Abstract:
A process of producing a bimodal polyolefin composition is described, which includes in one embodiment contacting monomers with a supported bimetallic catalyst composition for a time sufficient to form a bimodal polyolefin composition that includes a high molecular weight polyolefin component and a low molecular weight polyolefin component; wherein the supported bimetallic catalyst includes a first catalyst component that is preferably non-metallocene, and a second catalyst component that includes a metallocene catalyst compound having at least one fluoride or fluorine containing leaving group, wherein the bimetallic catalyst is supported by an enhanced silica, dehydrated at a temperature of 800 C. or more in one embodiment.

Processes For Transitioning Between Metallocene And Ziegler-Natta Polymerization Catalysts

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US Patent:
6949612, Sep 27, 2005
Filed:
Nov 18, 2003
Appl. No.:
10/715813
Inventors:
Agapios Kyriacos Agapiou - Humble TX, US
Robert Olds Hagerty - La Porte TX, US
F. David Hussein - Cross Lanes WV, US
Michael Elroy Muhle - Kingwood TX, US
Richard B. Pannell - Kingwood TX, US
Kathryn Ann Russell - Seabrook TX, US
Robert Lynn Santana - Baytown TX, US
X. Simon Zhang - London, GB
Assignee:
Univation Technologies, LLC - Houston TX
International Classification:
C08F002/38
US Classification:
526 84, 526 83, 526 86, 526901
Abstract:
Processes for transitioning among polymerization catalyst systems, preferably catalyst systems that are incompatible with each other. In particular, the processes relate to transitioning from olefin polymerizations utilizing metallocene catalyst systems to olefin polymerizations utilizing traditional Ziegler-Natta catalyst systems.

Processes For Transitioning Between Metallocene And Ziegler-Natta Polymerization Catalysts

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US Patent:
6995217, Feb 7, 2006
Filed:
Jul 28, 2005
Appl. No.:
11/191585
Inventors:
Agapios Kyriacos Agapiou - Humble TX, US
Robert Olds Hagerty - La Porte TX, US
F. David Hussein - Cross Lanes WV, US
Michael Elroy Muhle - Kingwood TX, US
Richard B. Pannell - Kingwood TX, US
Kathryn Ann Russell - Seabrook TX, US
Robert Lynn Santana - Baytown TX, US
X. Simon Zhang - London, GB
Assignee:
Univation Technologies, LLC - Houston TX
International Classification:
C08F 2/34
US Classification:
526 86, 526 84, 526901
Abstract:
Processes for transitioning among polymerization catalyst systems, preferably catalyst systems that are incompatible with each other. In particular, the processes relate to transitioning from olefin polymerizations utilizing metallocene catalyst systems to olefin polymerizations utilizing traditional Ziegler-Natta catalyst systems.

Bimodal Polyolefin Production Process And Films Therefrom

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US Patent:
20050054799, Mar 10, 2005
Filed:
Sep 20, 2004
Appl. No.:
10/945502
Inventors:
Chi-I Kuo - Humble TX, US
Laughlin McCullough - League City TX, US
Pradeep Shirodkar - Kingwood TX, US
Fred Ehrman - Houston TX, US
Porter Shannon - Seabrook TX, US
Robert Santana - Baytown TX, US
Steven Ackerman - Baytown TX, US
Daniel O'Neil - Metuchen NJ, US
International Classification:
C08F004/06
US Classification:
526348100, 526114000, 526113000, 526118000, 526119000, 526129000, 526160000, 526943000
Abstract:
A process of producing a bimodal polyolefin composition is described, which includes in one embodiment contacting monomers with a supported bimetallic catalyst composition for a time sufficient to form a bimodal polyolefin composition that includes a high molecular weight polyolefin component and a low molecular weight polyolefin component; wherein the supported bimetallic catalyst includes a first catalyst component that is preferably non-metallocene, and a second catalyst component that includes a metallocene catalyst compound having at least one fluoride or fluorine containing leaving group, wherein the bimetallic catalyst is supported by an enhanced silica, dehydrated at a temperature of 800 C. or more in one embodiment.

Polymerization Process And Control Of Polymer Composition Properties

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US Patent:
6828395, Dec 7, 2004
Filed:
Oct 15, 2003
Appl. No.:
10/685650
Inventors:
Fred D. Ehrman - Houston TX
Pradeep P. Shirodkar - Kingwood TX
Robert Lynn Santana - Baytown TX
Porter C. Shannon - Seabrook TX
Assignee:
Univation Technologies, LLC - Houston TX
International Classification:
C08F 234
US Classification:
526114, 526113, 526118, 526119, 526 70, 5261243, 526160, 526135, 526141, 526142, 526147, 525 54, 525191, 525240
Abstract:
Methods of controlling rheological properties of polymer compositions comprising at least one high molecular weight polymer and one low molecular weight polymer are disclosed. The polymer compositions are produced by polymerizing monomers in a single reactor using a bimetallic catalyst composition. A control agent such as, for example, an alcohol, ether, oxygen or amine is added to the reactor to control the rheological properties of the reactor. The polymerization takes place in the presence of rheological-altering compounds such as alkanes and aluminum alkyls. The control agents are added in an amount sufficient to counter the influences of the rheological-altering compounds.
Robert B Santana from Spring, TX, age ~43 Get Report