Presentation - abhyankar consultancies

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Abhyankar Consultancies
CAE and Design Consultants
About F.E solutions
 Established in 2013 and managed by technocrats having experience in
CAE of more than 05 years.
 We provide CAE results along with design consultation.
 We have expertise in non-linear and dynamic analysis.
 “Customer satisfaction first” is only our vision and mission.
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What is FEA?
 Finite Element Analysis (FEA) is a computer based method of
simulating/analyzing the behavior of engineering structures and
components under different working conditions. It is an advanced
engineering tool that is used in design and to augment/replace
“experimental testing”.
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Why FEA and how it will help you?
 Allows virtual simulation to anticipate response of structure (stress
developed and deformations) to applied loads at design stage. This
allows fixing problems at design stage.
 Increases the product reliability and robustness.
 Reduces product development time and cost.
 Reduces the number of prototype testing
 Accepted validation procedure by different design codes/agencies.
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Where FEA can be applied?
 Structure analysis: a cantilever, a bridge, an oil platform…
 Solid mechanics: a gear, a automotive power train …
 Dynamics: vibration of Sears Tower, earthquake and seismic waves ,
bullet impact, vehicle chassis
 Thermal analysis: heat radiation of finned surface, temperature
distribution in PCB, …
 Biomaterials: dental implants, human organs and tissues…
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Benefits of FEA
 The availability of FEA enables engineers to achieve objectives which
they otherwise could not, for instance making design modifications of
highly stressed areas.
 In almost any type of engineering endeavor, FEA saves time and money.
 FEA aids understanding of the structural behaviour which helps to
remove uncertainty and unnecessary pessimism.
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Finite Element Analysis (F.E.A.) Services.
 Static Structural Analysis
 Thermal Analysis
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 Dynamic Analysis and modal analysis
 Couple Field Analysis
F. E. Analysis of Crankshaft to find the Torsional Stiffness
CAD Model
FE Model
Units N and mm
Torque = 1 N-m
Tangential Deformation
F. E. Analysis of base frame
Objective :To find out stresses and
deflections in base frame of a diesel
generator set under shock load.
Response was found for different
excitation values .
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F. E. Analysis of pressure vessel
Objective : To find deflection and linearized
stresses under different loading condition.
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Region for linearized stress
Thermal Analysis of pressure vessel
CAD Model
FE Model
Objective :To find temperature
distribution over the vessel due to
different heat generators.
Temperature distribution
Harmonic Analysis of base frame
Objective :To find the frequency
response of the structure under the
excitation load .
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F.E.A. Services.
 Credentials
• Run by team of ME Mechanical Engineers specialized in CAE having an
experience of 5+ years each.
• Engaged in Academic Activities providing FEA Learning Solutions to
Students of BE Mechanical Course and for industry professionals.
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Contact us ….
• Address :Flat no. 14 , B-1, Bandal Complex, Near Kotharud
bus Depot . Paud road, Pune -411038
• Contact no. : 08237573406,
• Email ID:pnabhyankar@gmail.com,
• Website :
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