ARMANDO P SANCHEZ
Nursing at 105 Ct, Miami, FL
License number
Florida 1301771
Issued Date
Feb 26, 1998
Effective Date
Aug 13, 2001
Expiration Date
Jul 31, 1999
Category
Health Care
Type
Licensed Practical Nurse
Address
Address
3700 SW 105Th Ct, Miami, FL 33165
Professional information
Staff Mfg. Engineer At Beckman Coulter Inc.
Position:
Staff Mfg. Engineer at Beckman Coulter Inc.
Location:
Miami/Fort Lauderdale Area
Industry:
Mechanical or Industrial Engineering
Work:
Beckman Coulter Inc.
-
Staff Mfg. Engineer
Education:
University of Miami 1983 - 1987
Facilities Manager At D.m.e. Corp.
Position:
FACILITIES MANAGER at D.M.E. CORP.
Location:
Miami/Fort Lauderdale Area
Industry:
Military
Work:
D.M.E. CORP.
-
FACILITIES MANAGER
Education:
Spain, 4 years; USA. 7years. 1952 - 1972
Armando Sanchez
Location:
Miami/Fort Lauderdale Area
Industry:
Maritime
Skills:
Shipping, Transportation, Operations Management, Negotiation, Logistics, Customer Service, Freight, Process Improvement, International Trade, Inventory Management, Logistics Management, Transportation Management, Ocean, Performance Management, Customs Regulations, Financial Analysis, Financial Reporting, Accounts Payable, Management, International Logistics, Accounting
Languages:
Spanish
Monolithic Optical Flow Cells And Method Of Manufacture
US Patent:
8189187, May 29, 2012
Filed:
Nov 13, 2009
Appl. No.:
12/617897
Inventors:
Marshall Donnie Graham - Nicholasville KY, US
William Gerry Graham - Nicholasville KY, US
James P. Clarkin - Scottsdale AZ, US
Mark A. Wells - Davie FL, US
Jose M. Cano - Miami FL, US
Carlos Alberto Arboleda - Miami FL, US
Armando Jose Sanchez - Miami FL, US
William Gerry Graham - Nicholasville KY, US
James P. Clarkin - Scottsdale AZ, US
Mark A. Wells - Davie FL, US
Jose M. Cano - Miami FL, US
Carlos Alberto Arboleda - Miami FL, US
Armando Jose Sanchez - Miami FL, US
Assignee:
Beckman Coulter, Inc. - Brea CA
International Classification:
G01N 1/10
US Classification:
356246
Abstract:
An improved optical flow cell adapted for use in a flow cytometer for differentiating formed bodies (e. g. , blood cells). Manufactured from a monolithic transparent material, the improved flow cell has an internal flow channel of polygonal transverse cross-section through which prepared samples can be metered and an external envelope suited to acquisition of optical parameters from formed bodies in such samples. Preferably, such flow cell is formed by a glass-drawing process in which a relatively large glass preform having a rectilinear internal channel of a desired polygonal cross-sectional shape is heated and drawn to achieve a desired cross-sectional area of reduced size. Also disclosed are preferred methods for differentiating formed bodies using the flow cell of the invention.