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Mohammed Mounir Shalaby

from Mason, OH
Age ~47
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Also known as:
Mohammed M Shalaby, Mohammed Shalady
Related to:
Ashraf M Shalaby, 53
Connected to:
Catherine M Shalaby, 61Dina E Shalaby, 37Elham A Shalaby, 84Hamed Shalaby, 88James W Shalaby, 65John Shalaby, 40Khaled M Shalaby, 60Mohsen Shalaby, 74Samir M Shalaby, 69David F Shalala, 51

Mohammed Shalaby Phones & Addresses

  • Mason, OH
  • 1172 Rosehill Blvd, Schenectady, NY 12309
  • Niskayuna, NY
  • 1929 Plymouth Rd, Ann Arbor, MI 48105 (734) 996-2338

Resumes

Resumes

Mohammed Shalaby Photo 1

Staff Mechanical Engineer

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Location:
5730 Fairway Dr, Mason, OH 45040
Industry:
Mechanical Or Industrial Engineering
Work:
Ge Global Research Aug 2015 - Jun 2019
Senior Mechanical Engineer
Ge Additive Aug 2015 - Jun 2019
Staff Mechanical Engineer
Ge Global Research Feb 2008 - Aug 2015
Mechanical Engineer
Cairo University 2000 - 2013
Assistant Lecturer
University of Michigan Jan 2003 - Jan 2008
Graduate Student Research Assistant
Education:
University of Michigan 2003 - 2007
Doctorates, Doctor of Philosophy, Mechanical Engineering Cairo University 2000 - 2002
Master of Science, Masters, Design Cairo University 1995 - 2000
Bachelors, Bachelor of Science, Design
Skills:
Finite Element Analysis
Mechanical Engineering
Simulations
Matlab
Ansys
Optimization
Numerical Analysis
Modeling
Mathematical Modeling
Algorithms
C++
R&D
Numerical Simulation
Solid Mechanics
Mutlidiscplinary Optimization
Computer Aided Design
Programming
Design of Experiments
Abaqus
Minitab
Mems
Pro Engineer
Stress Analysis
Unigraphics
Structural Analysis
Mohammed Shalaby Photo 2

Mohammed Shalaby

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Mohammed Shalaby Photo 3

Mohammed Shalaby

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Mohammed Shalaby Photo 4

Mohammed Shalaby

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Mohammed Shalaby Photo 5

Accountant

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Work:
The Sultan Center
Accountant

Publications

Us Patents

Additive Manufacturing Build Units With Process Gas Inertization Systems

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US Patent:
20220332049, Oct 20, 2022
Filed:
Apr 16, 2021
Appl. No.:
17/232434
Inventors:
- Schenectady NY, US
- Lichtenfels, DE
Kishore Ramakrishnan - Rexford NY, US
Shashwat Swami Jaiswal - Bangalore, IN
Mohammed Mounir Shalaby - Mason OH, US
Peter Pontiller-Schymura - Kulmbach, DE
International Classification:
B29C 64/371
B29C 64/153
B22F 10/28
B22F 12/70
B33Y 10/00
B33Y 30/00
Abstract:
A build unit for additively manufacturing three-dimensional objects may include an energy beam system having one or more irradiation devices respectively configured to direct one or more energy beams onto a region of a powder bed, and an inertization system including an irradiation chamber defining an irradiation plenum, one or more supply manifolds, and a return manifold. The one or more supply manifolds may include a downflow manifold configured to provide a downward flow of a process gas through at least a portion of the irradiation plenum defined by the irradiation chamber, and/or a crossflow manifold configured to provide a lateral flow of the process gas through at least a portion of the irradiation plenum defined by the irradiation chamber. The return manifold may evacuate or otherwise remove process gas from the irradiation plenum defined by the irradiation chamber. While irradiating the region of the powder bed, the process gas may flow through the one or more supply manifolds, into the irradiation plenum, and from the irradiation plenum into the return manifold.

Recoater For Additive Manufacturing

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US Patent:
20220281011, Sep 8, 2022
Filed:
Mar 2, 2021
Appl. No.:
17/189959
Inventors:
- Schenectady NY, US
David Scott Simmermon - Felicity OH, US
Nicholas Ryan Dodds - Cincinnati OH, US
Mohammed Mounir Shalaby - Mason OH, US
International Classification:
B22F 12/67
B22F 10/50
B29C 64/214
B22F 10/85
B29C 64/393
Abstract:
A recoater for an additive manufacturing apparatus includes a recoater arm and retainer operably coupled with the recoater arm. The retainer includes a housing defining a cavity. A blade carrier supports one or more blades. An actuator is operably coupled with the housing and is configured to compressively retain an upper portion of the blade carrier within the cavity between a slide of the actuator and the housing.

Lower Gas Flow Injection System And Method For Additive Manufacturing System

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US Patent:
20200061653, Feb 27, 2020
Filed:
Aug 21, 2018
Appl. No.:
16/107696
Inventors:
- Schenectady NY, US
Rene du Cauze de Nazelle - Garching, DE
Mohammed Mounir Shalaby - Schenectady NY, US
Kishore Ramakrishnan - Rexford NY, US
Jens Stammberger - Lichtenfels, DE
International Classification:
B05B 12/08
B22F 3/105
B29C 64/153
B29C 64/245
B29C 64/371
B05B 12/00
B05B 7/08
Abstract:
An additive manufacturing (AM) system includes a housing defining a chamber, a build platform disposed in the chamber at a first elevation, and a lower gas inlet disposed at a second elevation and configured to supply a lower gas flow. The AM system includes a contoured surface extending between the lower gas inlet and the build platform to direct the lower gas flow from the second elevation at the lower gas inlet to the first elevation at the build platform, where the contoured surface discharges the lower gas flow in a direction substantially parallel to the build platform. The AM system also includes one or more gas delivery devices coupled to the lower gas inlet to regulate one or more flow characteristics of the lower gas flow, and a gas outlet configured to discharge the lower gas flow.

Spacer Flow Guide For Partitioning Build Chamber Of An Additive Manufacturing System

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US Patent:
20200061656, Feb 27, 2020
Filed:
Aug 21, 2018
Appl. No.:
16/107723
Inventors:
- Schnectady NY, US
Mohammed Mounir Shalaby - Schenectady NY, US
International Classification:
B05B 12/32
B05B 12/08
B22F 3/105
B29C 64/153
B29C 64/245
B29C 64/371
B05B 12/00
B05B 7/08
Abstract:
The present disclosure relates to the manufacture and use of an additive manufacturing (AM) system that employs a spacer flow guide disposed or formed within a housing that defines a chamber of the AM system. The spacer flow guide may direct various portions of a gas flow within the chamber to respective exhaust channels. For example, in combination with portions of the housing, the spacer flow guide may define a main exhaust channel that extends between the chamber and a gas outlet formed in a downstream end of the housing. Additionally, a bypass exhaust channel may be defined between the chamber and a back surface of the spacer flow guide to fluidly couple an upper portion of the chamber to the main exhaust channel.

Selective Modification Of Build Strategy Parameter(S) For Additive Manufacturing

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US Patent:
20190054530, Feb 21, 2019
Filed:
Aug 15, 2017
Appl. No.:
15/677417
Inventors:
- Schenectady NY, US
Michael Evans Graham - Slingerlands NY, US
Tao Jia - Greenfield WI, US
Mohammed Mounir Shalaby - Niskayuna NY, US
International Classification:
B22F 3/105
B33Y 10/00
B33Y 50/02
Abstract:
A computerized method, system, program product and additive manufacturing (AM) system are disclosed. Embodiments provide for modifying object code representative of an object to be physically generated layer by layer by a computerized AM system using the object code. The computerized method may include providing an interface to allow a user to manually: select a region within the object in the object code, the object code including a plurality of pre-assigned build strategy parameters for the object that control operation of the computerized AM system, and selectively modify a build strategy parameter in the selected region in the object code to change an operation of the computerized AM system from the plurality of pre-assigned build strategy parameters during building of the object by the computerized AM system.

Selective Modification Of Build Strategy Parameter(S) For Additive Manufacturing

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US Patent:
20190054566, Feb 21, 2019
Filed:
Aug 15, 2017
Appl. No.:
15/677406
Inventors:
- Schenectady NY, US
Michael Evans Graham - Slingerlands NY, US
Tao Jia - Greenfield WI, US
Mohammed Mounir Shalaby - Niskayuna NY, US
International Classification:
B23K 26/342
G06F 3/12
B33Y 50/02
B23K 26/06
B23K 26/082
B23K 26/073
Abstract:
A computerized method, system, program product and additive manufacturing (AM) system are disclosed. Embodiments provide for modifying object code representative of an object to be physically generated layer by layer by a computerized AM system using the object code. The computerized method may include providing an interface to allow a user to manually: select a region within the object in the object code, the object code including a plurality of pre-assigned build strategy parameters for the object that control operation of the computerized AM system, and selectively modify a build strategy parameter in the selected region in the object code to change an operation of the computerized AM system from the plurality of pre-assigned build strategy parameters during building of the object by the computerized AM system.

Selective Modification Of Build Strategy Parameter(S) For Additive Manufacturing

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US Patent:
20190056714, Feb 21, 2019
Filed:
Aug 15, 2017
Appl. No.:
15/677426
Inventors:
- Schenectady NY, US
Michael Evans Graham - Slingerlands NY, US
Tao Jia - Greenfield WI, US
Mohammed Mounir Shalaby - Niskayuna NY, US
International Classification:
G05B 19/4099
B33Y 50/02
Abstract:
A computerized method, system, program product and additive manufacturing (AM) system are disclosed. Embodiments provide for modifying object code representative of an object to be physically generated layer by layer by a computerized AM system using the object code. The computerized method may include providing an interface to allow a user to manually: select a region within the object in the object code, the object code including a plurality of pre-assigned build strategy parameters for the object that control operation of the computerized AM system, and selectively modify a build strategy parameter in the selected region in the object code to change an operation of the computerized AM system from the plurality of pre-assigned build strategy parameters during building of the object by the computerized AM system.

System And Method For Well Artificial Lift Lifecycle Planning

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US Patent:
20170351959, Dec 7, 2017
Filed:
Jun 2, 2017
Appl. No.:
15/612937
Inventors:
- Oklahoma City OK, US
Mohammed Mounir Shalaby - Niskayuna NY, US
Shyam Sivaramakrishnan - Schenectady NY, US
Steven Jay Tyber - Rexford NY, US
International Classification:
G06N 5/04
G06F 17/11
G06F 17/50
G06Q 10/06
Abstract:
According to one embodiment, there is provided herein a system and method for producing a well lifecycle lift plan that includes considerations of multiple types of lift, multiple lift configurations associated with each lift type, and can be used to provide a prediction of when or if it would be desirable to change the lift plan at some time in the future. Another embodiment utilizes a heuristic database with rules that might be used to limit the solution space in some instances by restricting the solution to feasible configurations. A further embodiment teaches how multiple individual well optimization results might be combined with a reservoir model to obtain an optimized lift schedule for an entire field.
Control profile
Mohammed Mounir Shalaby from Mason, OH, age ~47 Get Report