Search

Kastriot Shaska Phones & Addresses

  • 48675 Stoneridge Dr, Northville, MI 48168 (248) 756-5921
  • 612 Salus Dr, Waterford, MI 48327 (248) 698-1831
  • 30140 Warren Rd, Westland, MI 48185 (734) 422-7681
  • Wayne, MI
  • Dearborn, MI
  • Plymouth, MI
  • Oakland, MI

Work

Company: K. Shaska Esq PLC Address: 48755 Harvest Dr, Plymouth, MI 48170

Ranks

Licence: Michigan - Active And In Good Standing Date: 2004

Professional Records

Lawyers & Attorneys

Kastriot Shaska Photo 1

Kastriot Shaska, Plymouth MI - Lawyer

View page
Address:
K. Shaska Esq PLC
48755 Harvest Dr, Plymouth, MI 48170
(734) 674-1155 (Office)
Licenses:
Michigan - Active And In Good Standing 2004

Resumes

Resumes

Kastriot Shaska Photo 2

Senior Director Of Engineering, Global Technical Center

View page
Location:
Northville, MI
Industry:
Automotive
Work:
Cooper Standard
Senior Director of Engineering, Global Technical Center

Cooper Standard Nov 2017 - Feb 2019
Director of Engineering

Visteon Corporation Jan 2000 - Oct 2017
Senior Engineering Manager and Senior Technical Fellow

Ford Motor Company 1996 - 2000
Technical Specialist

Magna International 1995 - 1996
Vibration Engineer
Education:
University of Michigan 1993 - 2008
Masters, Bachelor of Science In Mechanical Engineering, Bachelors, Master of Science In Mechanical Engineering
Wayne State University 1998 - 2003
Doctorates, Doctor of Philosophy
Skills:
Finite Element Analysis
Engineering
Fmea
Six Sigma
Cae
Automotive Engineering
Simulations
Failure Mode and Effects Analysis
Root Cause Analysis
Testing
Fatigue Analysis
Product Development
Structural Dynamics
Vehicle Dynamics
Product Design
Dfmea
Gd&T
Apqp
Teamcenter
Engineering Management
Automotive
Reliability Test
Noise Reduction
Product Management
Structural Analysis
Nvh
Hev
Components
Vehicles
Dvp&R
Ppap
Vibration
Random Vibration
Vibration Isolation
Vibration Control
Vibration Testing
Dynamic Simulation
Structure Analysis
Reliability
Fatigue Testing
Non Linear Analysis
Accelerated Life Testing
Risk Assessment
Lean R&D
Continuous Improvement
Cross Functional Team Building
Strategic Technology Planning
Technical Leadership
Design Failure Mode and Effect Analysis
Languages:
English
Italian
Albanian
Certifications:
Professional Engineer
Six Sigma Black Belt
License 6201054566
State of Michigan, License 6201054566
Kastriot Shaska Photo 3

Techical Fellow At Visteon

View page
Location:
Greater Detroit Area
Industry:
Automotive
Kastriot Shaska Photo 4

Coordinator Ambulatory Pharmacy At Henry Ford Health System

View page
Location:
Greater Detroit Area
Industry:
Hospital & Health Care

Publications

Us Patents

Nvh And Gas Pulsation Reduction In Ac Compressor

View page
US Patent:
7494328, Feb 24, 2009
Filed:
Jul 6, 2005
Appl. No.:
11/175507
Inventors:
Kanwal Bhatia - Troy MI, US
Rodney James Callahan - Novi MI, US
Kastriot Shaska - Waterford MI, US
Assignee:
Visteon Global Technologies, Inc. - Van Buren Township MI
International Classification:
F04B 39/00
F04B 53/00
F04B 1/12
F04B 27/08
US Classification:
417312, 417269
Abstract:
A rear housing for a compressor reduces NVH without increasing the overall size of the compressor or inducing flow loss. Generally, the compressor includes a cylinder block receiving lower pressure fluid from the rear housing and providing higher pressure fluid back to the rear housing. The rear housing includes an annular outer wall and an annular inner wall defining a suction chamber and a discharge chamber. An inlet is in fluid communication with the suction chamber. An outlet is in fluid communication with the discharge chamber. The outlet includes a discharge passageway having a tubular member projecting into the discharge chamber. The tubular member is defined by a side wall and a closed end wall. The side wall includes a plurality of holes fluidically connecting the discharge chamber and the discharge passageway.

Oil Separator And Muffler Structure

View page
US Patent:
20060260340, Nov 23, 2006
Filed:
May 23, 2005
Appl. No.:
11/134908
Inventors:
Kanwal Bhatia - Troy MI, US
Michael Theodore - Plymouth MI, US
Kastriot Shaska - Waterford MI, US
International Classification:
F25B 43/02
F25D 19/00
US Classification:
062296000, 062470000
Abstract:
An oil separator-muffler for a compressor includes an inner chamber with an oil accumulation region and a wall positioned in the inner chamber. The wall defines a separator region and has an impingement surface. The arrangement of the wall in the inner chamber defines flow channels of varying cross-sectional areas. A mixture inlet for the separator-muffler provides a passageway for an oil gaseous refrigerant mixture to flow from the exterior of the separator-muffler into the separator region. The oil is separated from the mixture as the mixture impinges against the impingement surface and flows into the oil accumulation region. A channel in fluid communication with the oil accumulation region provides a passageway for the separated oil from the accumulation region to the exterior of the separator-muffler. The separated gaseous refrigerant flows from the separator region and through the flow channels of varying cross-sectional areas, thereby inducing a noise reduction mechanism, and a gas outlet provides a passageway for the separated gaseous refrigerant to exit the separator-muffler.

Connector

View page
US Patent:
20140062079, Mar 6, 2014
Filed:
Aug 31, 2012
Appl. No.:
13/601167
Inventors:
Eric William Kesler - Northville MI, US
Kastriot Shaska - Northville MI, US
Anthony Davis, JR. - Romulus MI, US
Christopher Turner - Dearborn MI, US
Assignee:
VISTEON GLOBAL TECHNOLOGIES, INC. - Van Buren Twp. MI
International Classification:
F16L 21/08
B23P 11/00
US Classification:
285 81, 2952502
Abstract:
A connector for a component fitting assembly of an air conditioning system includes a substantially planar plate having a recessed portion and a slot portion. The recessed portion and the slot portion are formed in the plate to define an opening for receiving a conduit therein. A method for coupling the conduit to the connector includes the step of urging at least the portion of the conduit through the slot portion and into the recessed portion of the plate, whereby the at least the portion of the conduit is deformed to correspond with a configuration of the opening to militate against disengagement between the plate and the at least the portion of the conduit disposed in the opening of the plate.

B-Tube Reform For Improved Thermal Cycle Performance

View page
US Patent:
20200080794, Mar 12, 2020
Filed:
Nov 14, 2019
Appl. No.:
16/683322
Inventors:
- Daejeon, KR
Kastriot Shaska - Northville MI, US
David Carl Letteer - Brighton MI, US
International Classification:
F28F 1/08
F28F 9/02
F28D 1/047
F28F 1/02
F28D 1/053
F28D 1/03
Abstract:
A tube for use in a heat exchanger includes an upper portion, a base portion spaced from the upper portion, and a partitioning wall depending from the upper portion. The partitioning wall is bent away and spaced from the base portion in a first section of the tube to form a single flow channel within the tube along the first section. The partitioning wall contacts the base portion in a second section of the tube to form a partition separating a first flow channel from a second flow channel along the second section. The first section of the tube is configured for reception into an opening of a header tank of the heat exchanger.

Heat Exchanger With Integrated Noise Suppression

View page
US Patent:
20190249935, Aug 15, 2019
Filed:
Apr 26, 2019
Appl. No.:
16/395876
Inventors:
- Daejeon, KR
Kastriot Shaska - Northville MI, US
Brian James Cardwell - Ypsilanti MI, US
International Classification:
F28F 9/00
F28F 9/02
F02B 29/04
Abstract:
A method of passively suppressing noise within a heat exchanger comprises the steps of preselecting a plurality of sound wave travel distances formed between a plurality of surfaces within the heat exchanger to cause destructive interference of a preselected set of sound waves as the sound waves travel the preselected sound wave travel distances and assembling the heat exchanger to have the preselected plurality of sound wave travel distances formed between the plurality of surfaces formed within the heat exchanger.

Battery Cooling Plate With Integrated Air Vents

View page
US Patent:
20190229384, Jul 25, 2019
Filed:
Jan 19, 2018
Appl. No.:
15/875079
Inventors:
- Daejeon, KR
Kastriot Shaska - Northville MI, US
Kurt Puterbaugh - Belleville MI, US
International Classification:
H01M 10/6556
H01M 10/613
H01M 10/625
H01M 10/643
H01M 10/647
H01M 10/6554
H01M 10/6561
Abstract:
A cooling system for cooling battery cells includes a plate assembly defining a chamber. The chamber is configured to receive a fluid therein. A plurality of apertures extend through the plate assembly. Each of the plurality of apertures is configured to align with a cell vent of one of the battery cells.

B-Tube Reform For Improved Thermal Cycle Performance

View page
US Patent:
20180106556, Apr 19, 2018
Filed:
Sep 7, 2017
Appl. No.:
15/697754
Inventors:
- Daejeon, KR
Kastriot Shaska - Northville MI, US
David Carl Letteer - Brighton MI, US
International Classification:
F28F 1/08
F28D 1/047
F28F 9/02
Abstract:
A tube for use in a heat exchanger comprises an upper portion, a base portion spaced from the upper portion, and a partitioning wall depending from the upper portion. The partitioning wall is bent away and spaced from the base portion in a first section of the tube to form a single flow channel within the tube along the first section. The partitioning wall contacts the base portion in a second section of the tube to form a partition separating a first flow channel from a second flow channel along the second section. The first section of the tube is configured for reception into an opening of a header tank of the heat exchanger.

Heat Exchanger Element With Thermal Expansion Feature

View page
US Patent:
20180038652, Feb 8, 2018
Filed:
Aug 4, 2016
Appl. No.:
15/228050
Inventors:
- Daejeon, KR
Kastriot Shaska - Northville MI, US
Michael Sproule - Brighton MI, US
International Classification:
F28D 1/04
F28F 9/013
F28F 9/02
F28D 1/053
Abstract:
A combination heat exchanger comprises a first heat exchanger assembly and a second heat exchanger assembly. The first heat exchanger assembly includes a first end tank, a second end tank, and a first heat exchanger core including a plurality of first heat exchanger tubes extending longitudinally in a first direction. The second heat exchanger assembly includes a third end tank, a fourth end tank, and a second heat exchanger core including a plurality of second heat exchanger tubes extending longitudinally in the first direction. A first coupling includes a first attachment portion rigidly coupled to the first end tank, a second attachment portion rigidly coupled to the third end tank, and a thermal expansion portion extending between the first attachment portion and the second attachment portion. The first coupling is configured to allow for relative translation between the first end tank and the third end tank in the first direction.
Kastriot K Shaska from Northville, MI, age ~61 Get Report