Resumes
Resumes
Martin Kasprzyk Phones & Addresses
-
21 Lisa Ann Ln, West Seneca, NY 14224 (716) 675-7188
-
Buffalo, NY
Work
Position:
Craftsman/Blue Collar
Education
Degree:
High school graduate or higher
Publications
Us Patents
Insert For A Radiant Tube
View pageUS Patent:
6484795, Nov 26, 2002
Filed:
Sep 8, 2000
Appl. No.:
09/658143
Inventors:
Martin R. Kasprzyk - Ransomville NY, 14131
International Classification:
F28F 1312
US Classification:
1651091, 138 38, 428371
Abstract:
An integral ceramic insert for a radiant tube. The insert has a helical shape and contains ceramic material; and it has a thermal expansion rate of less than 6. 0Ã10 meters/meter/degree Celsius and a thermal conductivity of at least 0. 2 calories/centimeter/second/degree Celsius. The diameter of the insert is from about 2 to about 10 inches, and it has a length such that the ratio of its length to its diameter is from about 2/1 to about 8/1. The helical shape of the insert contains one or more pitches of from about 2 to about 32 inches, each which defines a helix angle of from about 15 to about 80 degrees.
Insert For A Radiant Tube
View pageUS Patent:
20010024733, Sep 27, 2001
Filed:
Feb 2, 2001
Appl. No.:
09/776110
Inventors:
Martin Kasprzyk - Ransomville NY, US
International Classification:
F16L001/00
US Classification:
428/592000, 428/036900, 428/371000, 138/038000
Abstract:
An insert for a radiant tube comprised of an oxidation resistant metal alloy or a refractory material. The insert has a helical shape and a helix angle of from about 50 to about 80 degrees
Method Of Preparing Tubular Ceramic Articles
View pageUS Patent:
59851864, Nov 16, 1999
Filed:
Feb 19, 1998
Appl. No.:
9/026233
Inventors:
Martin R. Kasprzyk - Ransomville NY
Michael P. Dunn - Clarence Center NY
Michael P. Dunn - Clarence Center NY
Assignee:
Gas Research Institute - Chicago IL
International Classification:
C04B 35573
C04B 3580
C04B 3580
US Classification:
264 297
Abstract:
A method of making a ceramic tube of silicon and silicon carbide comprising the steps of covering a mandrel with carbon fiber material; infiltrating the carbon fiber material with a thermoset resin; curing the resin to render the carbon fiber material rigid and produce a green body; removing the mandrel to produce a free-standing body; treating the free standing body with graphite to fill voids and render the green body gas tight and infiltrating the green body with molten silicon to form a silicon and silicon carbide ceramic tube.
Eyeglasses For Shotgun Shooters
View pageUS Patent:
D416068, Nov 24, 1998
Filed:
Jan 29, 1997
Appl. No.:
D/065572
Inventors:
Martin K. Kasprzyk - Ransomville NY
International Classification:
1606
US Classification:
D16300
Method Of Producing Tubular Ceramic Articles
View pageUS Patent:
47895063, Dec 6, 1988
Filed:
Nov 7, 1986
Appl. No.:
6/928204
Inventors:
Martin R. Kasprzyk - Ransomville NY
Assignee:
Gas Research Institute - Chicago IL
International Classification:
C04B 3556
US Classification:
264 25
Abstract:
The present invention relates to methods and apparatus for producing tubular articles of silicon carbide and silicon. The articles contain silicon in both metallic and in chemically combined form. The method consists of the steps of concentrically positioning a vertical tubular columns of particulate silicon contiguous to a hollow, vertical tubular columns of particulate silicon carbide, carbon, or mixtures of silicon and carbon, and heating the adjacent columns to a siliciding temperature. The silicon component infiltrates the column containing the particulate silicon carbide, carbon, or mixtures thereof, forming a tubular product. The apparatus consists of supply hoppers for holding the particulate feed material, a loading means comprised of spaced, concentrically arranged, tubular forms. The loading means is positioned within a vertically positioned electrical induction furnace. Particulate feed materials are dry cast in the spaces between and around the forms.
Non-Oxide Sintered Ceramic Fibers
View pageUS Patent:
49083406, Mar 13, 1990
Filed:
Jul 16, 1987
Appl. No.:
7/074080
Inventors:
Francis J. Frechette - Tonawanda NY
Wolfgang D. G. Boecker - Lewiston NY
Carl H. McMurtry - Youngstown NY
Martin R. Kasprzyk - Ransomville NY
Wolfgang D. G. Boecker - Lewiston NY
Carl H. McMurtry - Youngstown NY
Martin R. Kasprzyk - Ransomville NY
Assignee:
The Standard Oil Company - Cleveland OH
International Classification:
C04B 3502
C04B 3580
C04B 3580
US Classification:
501 95
Abstract:
A high temperature, preferably polycrystalline, ceramic fiber having a selectable diameter of between 1 and 200 microns. The fiber is stable in an inert atmosphere at a temperature above about 1700. degree. C. and is often stable even in air at a temperature above 1500. degree. C. The fiber comprises a sintered ceramic powder having a maximum particle size less than the diameter of the fiber and an average particle size less than 0. 2 times the diameter of the fiber. The ceramic powder is also stable in an inert atmosphere at a temperature above about 1700. degree. C. At least 90% of the ceramic is selected from borides, nitrides, carbides, and silicides. The fiber is characterized by a smooth surface and is preferably out of round. The invention further comprises a textilable sinterable filament, comprising a flexible polymer matrix containing high temperature sinterable ceramic powder particles. The ceramic powder particles are selected from ceramic borides, nitrides, carbides, and silicides.
Method For Providing Electrical Connection
View pageUS Patent:
42283442, Oct 14, 1980
Filed:
Jun 29, 1978
Appl. No.:
5/920427
Inventors:
Charles J. Boos - Lewiston NY
Elwood B. Hausler - Grand Island NY
James A. Hirsch - Niagara Falls NY
Martin R. Kasprzyk - Buffalo NY
Elmer G. Smith - Niagara Falls NY
Elwood B. Hausler - Grand Island NY
James A. Hirsch - Niagara Falls NY
Martin R. Kasprzyk - Buffalo NY
Elmer G. Smith - Niagara Falls NY
Assignee:
The Carborundum Company - Niagara Falls NY
International Classification:
F23Q 722
US Classification:
219270
Abstract:
A composition comprising negatively doped hot pressed particulate silicon carbide, the process for making the composition, an electrical hot surface fuel ignitor manufactured from the composition, a silicon brazed electrical connection for the ignitor and an ignitor circuit containing a dropping resistance.
Composite Material Of Discontinuous Silicon Carbide Particles And Continuous Silicon Matrix And Method Of Producing Same
View pageUS Patent:
47956739, Jan 3, 1989
Filed:
Oct 28, 1986
Appl. No.:
6/924174
Inventors:
Francis J. Frechette - Tonawanda NY
Martin R. Kasprzyk - Buffalo NY
Douglas J. McDowell - Niagara Falls NY
Joseph S. Zanghi - Buffalo NY
Martin R. Kasprzyk - Buffalo NY
Douglas J. McDowell - Niagara Falls NY
Joseph S. Zanghi - Buffalo NY
Assignee:
Stemcor Corporation - Cleveland OH
International Classification:
B32B 516
B32B
C04B 3334
C04B 3336
B32B
C04B 3334
C04B 3336
US Classification:
428331
Abstract:
Dense, strong, composite materials are produced from mixtures of silicon and silicon carbide. The composite materials are characterized by a mixture of finely-divided silicon carbide in a substantially continuous matrix of silicon. The composite materials contain from about 40 to about 60 percent by volume silicon carbide and from about 60 to about 40 percent by volume silicon. The composite materials are produced by initially producing a finely-divided silicon carbide starting component and forming the component into a green body of the desired shape. The green body is subsequently impregnated with molten silicon in the absence of any substantial amount of carbon. Suitably, a thermoplastic resin binder may be added to the silicon carbide starting material to aid in forming the green body. The impregnation step may be carried out by surrounding the green body with finely-divided silicon metal and heating the covered body to a temperature above the melting point of silicon. The composite materials described have flexural strength of over about 90,000 psi at 1100. degree. C.