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Shravan X Bharadwaj

from San Jose, CA
Age ~42
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Also known as:
Bharadwaj Shravan
Phone and address:
909 Sunbonnet Loop, San Jose, CA 95125
Connected to:
Akanksha Bharadwaj, 33Amar K Bharadwaj, 75Anagha Bharadwaj, 32Anoopendra Bharadwaj, 70Deepak Bharadwaj, 47Manish S Bharadwaj, 54Raghav Bharadwaj, 39Raghavan Bharadwaj, 52Raj T Bharadwaja, 85Sai K Bharadwaj, 42

Shravan Bharadwaj Phones & Addresses

  • 909 Sunbonnet Loop, San Jose, CA 95125
  • Cupertino, CA
  • Columbus, IN
  • Columbus, OH

Work

Company: Apple Apr 2011 to Jun 2015 Position: Senior manager, ï mac manufacturing design

Education

School / High School: Stanford University 2015 to 2017

Skills

Product Design • Manufacturing • Product Development • Design For Manufacturing • Solidworks • Finite Element Analysis • Matlab • Ansys • Mechanical Engineering • Cross Functional Team Leadership • Unigraphics • Robotics • Engineering • Autocad • Six Sigma • Management • C • Pro Engineer • Minitab • Ptc Creo • Nx Unigraphics • Engineering Management • Fmea • Supply Chain Management • Spc • Jmp • Manufacturing Operations • Cfd • Design of Experiments • Simulations • Manufacturing Engineering • Automotive • Testing • Project Management • Product Management • Sheet Metal • Pro/Engineer • Ultrasonics • Dsp • Dynamics • Fluid Dynamics • Cfx • Vibration Control • Cnc • Adaptive Systems • Sensors • Controls • R • Research and Development • Industrial Design

Languages

English • Japanese • Hindi • Tamil • Kannada • Malayalam • Bengali • Assamese

Ranks

Certificate: Product Creation and Innovative Manufacturing

Interests

Economic Empowerment • Civil Rights and Social Action • Politics • Education • Environment • Poverty Alleviation • Science and Technology • Human Rights • Arts and Culture

Industries

Consumer Electronics

Resumes

Resumes

Shravan Bharadwaj Photo 1

Manager, Macintosh Manufacturing Design

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Location:
San Francisco, CA
Industry:
Consumer Electronics
Work:
Apple Apr 2011 - Jun 2015
Senior Manager, Ï Mac Manufacturing Design
Cummins Inc. Feb 2010 - Apr 2011
Advanced Systems Design Engineer
Honda of America Mfg., Inc. Sep 2007 - Feb 2010
Research Engineer - Advanced Engineering and Visiting Scholar
Suzuki Motor Corporation Jun 2004 - Aug 2007
Vehicle Body Design Engineer
Jun 2004 - Aug 2007
Manager, Macintosh Manufacturing Design
Education:
Stanford University 2015 - 2017
Stanford University 2014 - 2015
Stanford University 2014 - 2014
The Ohio State University 2007 - 2009
Master of Science, Masters, Mechanical Engineering National Institute of Technology, Tiruchirappalli 2000 - 2004
Bachelors, Bachelor of Technology, Mechanical Engineering
Skills:
Product Design
Manufacturing
Product Development
Design For Manufacturing
Solidworks
Finite Element Analysis
Matlab
Ansys
Mechanical Engineering
Cross Functional Team Leadership
Unigraphics
Robotics
Engineering
Autocad
Six Sigma
Management
C
Pro Engineer
Minitab
Ptc Creo
Nx Unigraphics
Engineering Management
Fmea
Supply Chain Management
Spc
Jmp
Manufacturing Operations
Cfd
Design of Experiments
Simulations
Manufacturing Engineering
Automotive
Testing
Project Management
Product Management
Sheet Metal
Pro/Engineer
Ultrasonics
Dsp
Dynamics
Fluid Dynamics
Cfx
Vibration Control
Cnc
Adaptive Systems
Sensors
Controls
R
Research and Development
Industrial Design
Interests:
Economic Empowerment
Civil Rights and Social Action
Politics
Education
Environment
Poverty Alleviation
Science and Technology
Human Rights
Arts and Culture
Languages:
English
Japanese
Hindi
Tamil
Kannada
Malayalam
Bengali
Assamese
Certifications:
Product Creation and Innovative Manufacturing
Stanford University

Publications

Us Patents

Shape Adjustment System

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US Patent:
20130133167, May 30, 2013
Filed:
Aug 28, 2012
Appl. No.:
13/597221
Inventors:
Shravan BHARADWAJ - San Jose CA, US
Derrick Tek-Kien JUE - San Francisco CA, US
Assignee:
Apple Inc. - Cupertino CA
International Classification:
B23Q 17/00
US Classification:
2940701, 29 33 R
Abstract:
Systems which may be employed to adjust the shape of a computer housing are provided. The systems may include a measurement apparatus that measures the positions of points on the housing. A determining apparatus may determine an offset between the position of the points and reference values. An adjustment apparatus may apply force to the computer housing with actuators based on the offset at each of the points. This process may be repeated or otherwise continued until the offset is within a predetermined range of acceptable values. Related methods, assemblies, and a non-transitory computer readable medium are also provided.

Dynamic Adjustment Of Friction Stir Welding Process Parameters Based On Weld Temperature

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US Patent:
8556156, Oct 15, 2013
Filed:
Aug 30, 2012
Appl. No.:
13/599097
Inventors:
Shravan Bharadwaj - San Jose CA, US
Assignee:
Apple Inc. - Cupertino CA
International Classification:
B23K 20/12
US Classification:
228102, 228 21, 228 9, 228103, 2281121
Abstract:
A method for friction stir welding is provided. The method may include beginning a friction stir welding operation by directing a rotating friction stir welding tool along a joint between two parts. A temperature of the resulting weld may be measured. Thereby, a controller may adjust process parameters associated with the friction stir welding process to decrease a difference between desired and measured temperatures of the weld. The desired temperature may correspond to a temperature at which the parts are plasticized. The process parameters may include rotational speed of the friction stir welding tool, feed rate, axial force along the length of the friction stir welding tool, and tilt angle of the friction stir welding tool.

Electronic Devices With Backlit Partial Mirror Structures

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US Patent:
20220341585, Oct 27, 2022
Filed:
Feb 18, 2022
Appl. No.:
17/675834
Inventors:
- Cupertino CA, US
Jun Cheng - Shanghai, CN
Martin Melcher - Paris, FR
Shravan Bharadwaj - San Jose CA, US
Wanshan Li - Suzhou, CN
Scott M. Stryker - San Jose CA, US
International Classification:
F21V 33/00
G02B 5/08
F21V 8/00
G02B 5/28
Abstract:
A backlit partially reflective mirror may be used to form a logo or other structure in an electronic device. The electronic device may have a housing. The housing may have a wall with one or more openings configured to receive one or more corresponding logo-shaped portions of the partially reflective mirror. The partially reflective mirror may be illuminated using backlight illumination from a backlight that is overlapped by the partially reflective mirror. The partially reflective mirror may be formed from one or more protruding structures on a common substrate. One or more thin-film layers may be configured to provide the partially reflective mirror with desired visible light reflection spectrum, a desired visible light transmission spectrum, and a desired visible light absorption spectrum. The reflectivity of the mirror may be configure so that the mirror serves as a one-way mirror for the logo or other structure.

Metal Can Battery

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US Patent:
20210074958, Mar 11, 2021
Filed:
May 26, 2020
Appl. No.:
16/883959
Inventors:
- Cupertino CA, US
Brad G. Boozer - Saratoga CA, US
Christopher M. Werner - San Jose CA, US
Tianren Xu - Cupertino CA, US
Brian K. Shiu - Sunnyvale CA, US
Simone M. Missirian - San Jose CA, US
Haran Balaram - Sunnyvale, YS
Abhishek P. Shiwalkar - Mountain View CA, US
Shravan Bharadwaj - San Jose CA, US
Alexander Manosov - Sunnyvale CA, US
Matthew S. Theobald - San Francisco CA, US
Huan Huang - Fremont CA, US
Tyler S. Bushnell - Mountain View CA, US
Katharine R. Chemelewski - Campbell CA, US
Premanand Ramadass - San Mateo CA, US
Yanning Song - Cupertino CA, US
Christopher R. Pasma - Redwood City CA, US
Assignee:
Apple Inc. - Cupertino CA
International Classification:
H01M 2/02
H01M 10/48
H01M 10/42
Abstract:
This application relates to a battery system for reducing spacing between components in an electronic device. The battery system includes a housing surrounding an electrode assembly and a connection module. The housing is rigid or semi-rigid and connected to a common ground. The battery system can be positioned in the electronic device to contact components without damaging the components. In some embodiments, the battery system can be used as a structural element in the electronic component.

Computing Workstation With Accessible In A Rack Environment

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US Patent:
20200100383, Mar 26, 2020
Filed:
Sep 25, 2019
Appl. No.:
16/583155
Inventors:
- Cupertino CA, US
Christoph M. PISTOR - Santa Cruz CA, US
Bartley K. ANDRE - Menlo Park CA, US
Richard D. KOSOGLOW - San Jose CA, US
Michael D. MCBROOM - Leander TX, US
Shravan BHARADWAJ - San Jose CA, US
Jonathan L. BERK - Mountain View CA, US
Houtan R. FARAHANI - San Ramon CA, US
James M. CUSEO - San Jose CA, US
David C. PARELL - Palo Alto CA, US
Eric A. KNOPF - Mountain View CA, US
Seth G. MCFARLAND - San Jose CA, US
International Classification:
H05K 7/16
H05K 7/14
H05K 9/00
Abstract:
A rack system for one or more computing systems is described. The rack system may include support structures, or rack structures, and a housing affixed or un-affixed to the support structures. The rack system may include rails, including telescoping rails, affixed to the support structures and coupled to the computing system. When the rack system is in a closed position, the computing system is positioned within the housing. When the rack system is in an open position, the computing system is removed from the housing and the components of the computing system are accessible. In the open position, only components on one surface of the circuit board are accessible. However, the computing system can rotate, thereby placing the components on the opposing surface of the circuit board in an accessible position. Alternatively, the housing can be affixed to the computing system, and include modifications for access to the computing system.

Housings Formed From Three-Dimensional Circuits

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US Patent:
20190029136, Jan 24, 2019
Filed:
Jul 20, 2017
Appl. No.:
15/655311
Inventors:
- Cupertino CA, US
Shravan Bharadwaj - San Jose CA, US
International Classification:
H05K 5/02
H05K 1/03
H05K 1/09
H05K 3/10
H05K 3/32
G06F 1/16
Abstract:
A housing made from a circuit laminate includes first and second layers coupled together. Each includes a rigid, electrically insulating non-planar structural layer, flexible conductive traces disposed on surfaces of the structural layer, and flexible connector layers contacting to the flexible conductive traces. The housing may be formed from the circuit laminate using thermoforming or another process that co-molds the first and second layers. The structural layers stiffen the housing and/or form an environmental or other barrier so that the housing protects an internal component.

Additive Manufacturing Of Magnets

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US Patent:
20170092400, Mar 30, 2017
Filed:
Aug 25, 2016
Appl. No.:
15/247723
Inventors:
- Cupertino CA, US
Shravan BHARADWAJ - San Jose CA, US
International Classification:
H01F 7/02
H01F 1/057
H01F 1/053
H01F 41/02
H01F 13/00
Abstract:
A unibody magnetic structure having layers of variably magnetized material is disclosed. The unibody magnetic structure can be formed by way of additive manufacturing, such as by a stereolithographic (SLA) process or a selective laser sintering (SLS) process. The SLA process can involve forming the structure from a molten pool of polymer material, with the material having a magnetic component dissolved therein. The SLS process can involve sintering the structure from a powder having a magnetic component. As each layer is formed, the layer can be selectively magnetized with a given polarity and strength. The magnetization of each formed layer can vary, such that the final structure comprises numerous layers having different shapes and sizes, as well as different levels and polarities of magnetization.

Thermographic Characterization For Surface Finishing Process Development

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US Patent:
20150290764, Oct 15, 2015
Filed:
Mar 4, 2015
Appl. No.:
14/638892
Inventors:
- Cupertino CA, US
Simon Regis Louis Lancaster-Larocque - Gloucester Ontario, CA
Collin D. Chan - Dublin CA, US
Christopher R. Fagan - Pacifica CA, US
Vincent Yan - San Francisco CA, US
IAN S. THEILACKER - West Chester PA, US
Brian K. Miehm - Los Altos CA, US
Shravan Bharadwaj - San Jose CA, US
International Classification:
B24B 49/14
B24B 49/16
B24B 49/12
Abstract:
A method and system for observing and monitoring thermal characteristics of a machining operation, such as a surface finishing operation, performed on a workpiece is disclosed. The surface finishing operation can be performed on the workpiece in order to remove a surface defect, e.g. a parting line, on a surface of the workpiece and/or to provide a mirror-like finish to the workpiece. In one embodiment, an emissive layer is applied to the workpiece to increase a thermal emissivity of the workpiece. In some embodiments, a finishing surface, such as a polishing or buffing wheel, and/or a lubricant used in a finishing operation is monitored. A thermal profile of the surface of the workpiece, finishing surface and/or lubricant can be obtained. The finishing operation can be modified in response to the monitored thermal characteristics to prevent the occurrence of defects and improve the efficacy of the finishing operation.
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Shravan X Bharadwaj from San Jose, CA, age ~42 Get Report