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Albert Chiang Phones & Addresses

  • San Francisco, CA
  • 1301 Atlantic Ave, Monterey Park, CA 91754 (323) 269-5926
  • Mountain View, CA
  • Santa Fe Springs, CA
  • Stamford, CT
  • Commerce, CA
  • Brookline, MA
  • Walnut Creek, CA
  • Campbell, CA
  • 2035 29Th Ave, San Francisco, CA 94116

Work

Company: Stanford Hospital and Clinics Address: 300 Pasteur Drive, Stanford, CA 94305

Education

School / High School: University of Illinois At Chicago / College of Medicine 2004

Languages

English

Awards

Healthgrades Honor Roll

Ranks

Certificate: Anesthesiology, 2009

Specialities

Anesthesiology

Professional Records

Medicine Doctors

Albert Chiang Photo 1

Dr. Albert B Chiang, San Jose CA - MD (Doctor of Medicine)

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Specialties:
Anesthesiology
Address:
751 S Bascom Ave, San Jose, CA 95128
(408) 947-4007 (Phone), (408) 885-6904 (Fax)
Certifications:
Anesthesiology, 2009
Awards:
Healthgrades Honor Roll
Languages:
English
Hospitals:
751 S Bascom Ave, San Jose, CA 95128

Stanford Hospital and Clinics
300 Pasteur Drive, Stanford, CA 94305
Education:
Medical School
University of Illinois At Chicago / College of Medicine
Graduated: 2004
Albert Chiang Photo 2

Albert Bohowe Chiang, San Jose CA

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Specialties:
Anesthesiologist
Address:
751 S Bascom Ave, San Jose, CA 95128
Board certifications:
American Board of Anesthesiology Certification in Anesthesiology

Business Records

Name / Title
Company / Classification
Phones & Addresses
Albert F. Chiang
President
PACIFIC HOME HEALTH CARE INC
8855 E Vly Blvd #203, Rosemead, CA 91770
Albert F. Chiang
Owner
Hsu Yao & Chow Cpas
Accounting/Auditing/Bookkeeping · Accountant
8855 Vly Blvd, Rosemead, CA 91770
(626) 292-1877
Albert Chiang
President
Best Value Merchandise Corp
Individual & Family Services · Importer & Manufacturer of Victory Brand General Merchandise Specializing In Housewares & Toys
2939 Vail Ave, City of Commerce, CA 90040
(323) 727-7040
Albert Chiang
President
OBJECTTRAK, INC
Equipment Coordinator and Facilitator
2443 Fillmore St #154, San Francisco, CA 94115
2082 29 Ave, San Francisco, CA 94116
Albert F. Chiang
Partner
Sauyaothuang Chiang CPA
Accounting/Auditing/Bookkeeping
8855 Vly Blvd, Rosemead, CA 91770
Albert Chiang
Principal
Chiang Albert
Nonclassifiable Establishments
306 El Divisadero Ave, Walnut Creek, CA 94598
Albert F. Chiang
Principal
Pacific Home Care Inc
Nursing/Personal Care
8855 Vly Blvd, Rosemead, CA 91770
(626) 291-5388
Albert F. Chiang
Vernon Property Management LLC
Real Estate Holding & Management
8855 Vly Blvd, Rosemead, CA 91770

Publications

Us Patents

Preparation Of Conductive Polyurethanes Using A Conductive Quasi-Solution

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US Patent:
6417315, Jul 9, 2002
Filed:
Jan 16, 2001
Appl. No.:
09/760618
Inventors:
Albert C. Chiang - Danbury CT
John A. Roderick - Scituate RI
Assignee:
Mearthane Products Corporation - Cranston RI
International Classification:
C08G 1828
US Classification:
528 71, 528 76, 528 56, 528 59, 528 61, 528 65, 528 85, 524589, 524590, 521 65, 521 67, 521134, 521137, 521155, 521159, 521911, 264 459, 264 468
Abstract:
A conductive quasi-solution useful for making a homogeneously conductive single-phase polyurethane, comprising a transition metal salt, a carrier solution, and a dispersing agent, wherein said conductive quasi-solution has a transition metal salt concentration between 10 and 30% by weight, and methods of making thermoset and thermoplastic polyurethane polymers therewith.

Conductive Urethane Roller

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US Patent:
20020077402, Jun 20, 2002
Filed:
Dec 11, 2001
Appl. No.:
10/016046
Inventors:
Albert Chiang - Danbury CT, US
John Roderick - Scituate RI, US
Marcelino Martins - Coventry RI, US
George Martins - Coventry RI, US
Assignee:
Mearthane Products Corporation, a Rhode Island corporation
International Classification:
C08K005/04
C08K003/10
C08K003/32
US Classification:
524/394000, 524/413000, 524/435000, 524/414000
Abstract:
An electrically conductive or semi-conductive polymeric material including a metal salt dissolved in a polymer. The metal salt is complexed with the polymer, which is what provides the material with its conductive properties. The materials have a resistivity of between 10and 10ohms-cm.

Preparation Of Conductive Polyurethanes Using A Conductive Quasi-Solution

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US Patent:
61110515, Aug 29, 2000
Filed:
Aug 7, 1998
Appl. No.:
9/130946
Inventors:
Albert C. Chiang - Danbury CT
John A. Roderick - Scituate RI
Assignee:
Mearthane Products Corporation - Cranston RI
International Classification:
C08G 1828
C08G 1870
US Classification:
528 71
Abstract:
A conductive quasi-solution useful for making a homogeneously conductive single-phase polyurethane, comprising a transition metal salt, a carrier solution, and a dispersing agent, wherein said conductive quasi-solution has a transition metal salt concentration between 10 and 30% by weight, and methods of making thermoset and thermoplastic polyurethane polymers therewith.

Thermal Printing Cartridge

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US Patent:
49822020, Jan 1, 1991
Filed:
Sep 27, 1988
Appl. No.:
7/251012
Inventors:
Danilo P. Buan - Easton CT
Albert C. Chiang - Danbury CT
Donald T. Dolan - Ridgefield CT
Assignee:
Pitney Bowes Inc. - Stamford CT
International Classification:
B01D 1510
B41J 3200
US Classification:
346 76PH
Abstract:
A printing cartridge adapted for use with thermal transfer printing apparatus. The cartridge includes a frame defining first and second printing stations, a ribbon supply spool, and a ribbon take-up spool, both of the spools being rotatably mounted on the frame. The ribbon has a backing layer and an ink donor layer and is guided in a feed path extending from the supply spool through the first and second printing stations, again through the first station, then to the take-up spool. The frame of the cartridge is adapted to receive a thermal printing head for engaging the ribbon at each of the first and second printing stations. The feed path has a first leg extending from the supply spool, through the first printing station, to the second printing station; a second leg extending through the second printing station to the first printing station; and a third leg extending through the first printing station to the take-up spool. A ribbon backing roller rotatably mounted on the frame engages the ribbon in the third leg of the feed path at the first printing station such that ink from the ribbon in the first leg of the feed path at the first printing station is transferred to the ribbon in the third leg of the feed path also at the first printing station. The thermal printing head at the second printing station engages the ribbon in the second leg of the feed path such that ink is transferred to a workpiece.

Method For The Production Of High Concentrations Of Emulsion Polymers

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US Patent:
44181833, Nov 29, 1983
Filed:
Nov 12, 1981
Appl. No.:
6/320360
Inventors:
Albert C. Chiang - Danbury CT
Assignee:
Pitney Bowes Inc. - Stamford CT
International Classification:
C08F 224
US Classification:
526 80
Abstract:
A process for the preparation of emulsion polymers having a solid content of about 65% to about 80% is disclosed. The process comprises the step of adding a monomeric mixture to a reaction system maintained at a temperature of from about 60. degree. C. to about 90. degree. C. , the monomer addition not exceeding an hourly rate of about one-fourth of the total monomer to be added, the mixture comprising monomers having a particle size of from about 10-100 microns, the system having therein an emulsifier and initiator at the time of the monomeric addition.

Preparation Of Conductive Polyurethanes Using A Conductive Quasi-Solution

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US Patent:
56398476, Jun 17, 1997
Filed:
May 25, 1995
Appl. No.:
8/448726
Inventors:
Albert C. Chiang - Danbury CT
John A. Roderick - Scituate RI
Assignee:
Mearthane Products Corp. - Cranston RI
International Classification:
C08G 1828
C08G 1870
US Classification:
528 71
Abstract:
A conductive quasi-solution useful for making a homogeneously conductive single-phase polyurethane, comprising a transition metal salt, a carrier solution, and a dispersing agent, wherein said conductive quasi-solution has a transition metal salt concentration between 10 and 30% by weight, and methods of making thermoset and thermoplastic polyurethane polymers therewith.

Thermal Transfer Printing Apparatus

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US Patent:
54144493, May 9, 1995
Filed:
Jan 28, 1991
Appl. No.:
7/649222
Inventors:
Danilo P. Buan - Easton CT
Albert C. Chiang - Danbury CT
Donald T. Dolan - Ridgefield CT
Assignee:
Pitney Bowes Inc. - Stamford CT
International Classification:
B41J 2325
US Classification:
347217
Abstract:
A process of thermal transfer printing which is accomplished in two printing steps. The process utilizes ribbon including a backing layer and an ink donor layer. The ribbon is drawn from a supply spool through a first printing station at which a first portion of the ink is transferred to the backing layer to form a first image thereon. The ribbon continues to and through a second printing station at which the remainder of the ink is transferred to a workpiece in the form of a second image which contrasts with the first image. All that remains of the ribbon as it leaves the second printing station is the backing layer which continues to and through the first printing station once again for the operation already mentioned. Thereupon, the ribbon is drawn onto a take-up spool for eventual disposal. The ink may be fluorescent.

Variable Traction Wheel For In-Line Roller Skate

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US Patent:
58297570, Nov 3, 1998
Filed:
Oct 11, 1996
Appl. No.:
8/730469
Inventors:
Albert C. Chiang - Danbury CT
John A. Roderick - Scituate RI
David R. Willis - Wakefield RI
Charles Sipes - Johnston RI
Assignee:
Mearthane Products Corporation - Cranston RI
International Classification:
A63C 1714
US Classification:
280 1122
Abstract:
Disclosed is an in-line skate wheel that includes: (a) a braking portion including a high friction surface material having a hardness from about 75 to about 95 Shore A, and a coefficient of friction from about 0. 45 to about 1. 5; and (b) a skating portion including a low friction surface material having a hardness from about 75 to about 95 Shore A, and a coefficient of friction from about 0. 1 to about 0. 45. The skating portion includes a higher proportion of low friction surface material than the braking portion. The wheel delivers variable traction in response to the angle of wheel contact with the ground, without sacrificing a smooth ride or wheel durability. Utilizing the variable traction of the wheel a skater can stop safely and reliably, using known ice-skating maneuvers, wherein the wheel is turned away from the skater's direction of travel.
Albert K Chiang from San Francisco, CA, age ~71 Get Report