Резюме Engineer

Resumes Valery and Sergey Anpilov

P*** 1

Good day ,

I am looking position of Stress&Thermal&EMag engineer (33 years of Stress/thermal
simulations ,PhD)

I perform stress/thermal simulations of optical-electronic units

https://www.linkedin.com/in/valeri-anpilovv-128988163/



strength and thermal strength calculations, including hyperelastic materials (rubber), polymers,
composites
*** have experience in numerical modeling of stamping processes



the problems of "kinematics" and rotor dynamics



some experience of solving electromagnetic problems (low frequency range), piezoelectric and
thermoelectric effects

https://www.linkedin.com/in/valeri-anpilovv-128988163/

My son is looking position of CFD/thermal engineer

(31 years old, 10 years of CFD/thermal simulations ,PhD)

https://www.linkedin.com/in/sergey-anpilov-20131485/

Regards Valery Anpilov
Private: *********************
Skype: valery.anpilov
Cell phone: +7.903. Показати контакти

Resumes Valery and Sergey Anpilov

P*** 2

Cirriculum Vitae

https://www.linkedin.com/in/valeri-anpilovv-128988163/

Anpilov

Valery

Nikolaevich

Date of birth:

***********

Nationality:

Russian

Education:

 1992-1995 – PhD , Leningradsky state university.

(Numerical simulation of propagation phenomena of strong shock waves in
heterogeneous elastic-plastic media)

 1981-1986 – Leningradsky state university.

Department: Applied mathematics

 1981-1986 – Engineering academy.

Specialization: Stress simulations.
Probation and stress simulation of underground constructions for the effects of waves
from explosions of conventional and nuclear munitions.

 1978-1981 – Engineering college.

Specialization: Stress simulations. Diploma with honours.

2019-present:

Stress/thermal engineer-consultant in Krets (Orebro, Sweden)

https://krets.nu/hem/

Working
experience:

2008 – present :Engineering company «CAE-Services»
http://cae-services.net/
Chief of stress department

Stress/thermal simulations:

 Stress/thermal simulations of the overall stress-strain state of piping systems made from both

metal and non-metal (including composites) materials, for given values of temperature,
pressure, weight of the internal environment, self-weight of the structure, taking into account
the kinematic conditions, as well as the friction in the bearings.
Material of pipes, vessels and tanks:

-

steel

-

plastic/polimer

-

rubber

-

composities. 

 Seismic resistance of tanks and pressure vessels, including partially filled with liquid. 

 – coupled Eulerian-Lagrangian (CEL) analysis was used for fluid-structure interaction. 

 Stress simulation taking into account the hyperelastic properties of gaskets from rubbers and 

polymers. 

 Stress simulations with composites (small experience). 
 Numerical simulation of stamping processes. 
 Stress simulations of lift's constructions under "operational" and "emergency" loads, in 

particular: 

- 

emergency lift stops; 

- 

lift containing passengers falling onto shock absorbers. 

 Stress simulations of the container in which the electronic units and diesel generators of 

Resumes Valery and Sergey Anpilov 

P*** 3 

backup electricity are located to the effect of static and dynamic (seismic) loads. 

 Stress simulations of the parts / assemblies of various metalworking machines. 

 Stress simulations of a metal-ceramic tube (heat exchanger element of a nuclear reactor) for 

various internal pressure and temperature. 

 Stress simulations (static and dynamics) for electronic, electrical and optical devices under 

structural and thermal loads. 

 Multibody Dynamics Modeling (COMSOL - from 2017) 
 Rotor Dynamics Modeling (COMSOL - from 2018) 
 Analysis of Thermoelectric Phenomena with COMSOL (from 2017) 
 Piezoelectric Simulations with COMSOL (from 2017) 

 
1995 – 2008 –office of German company CAD-FEM GmbH in Russia 

www.cadfem.de

 (Technical Director – Chief stress department) 

Stress/thermal simulations for electronic industry: 
 

 Stress simulations (static and dynamics) for electronic, electrical and optical devices under 

structural and thermal loads. 

 Determination of the stresses in microcircuits from thermal loads. 

 Numerical modeling of technological operations in the manufacture of metal parts (stamping) 

- to use deformed geometry and calculation results (residual stresses , residual deformations, 
viscous fracture) in further stress simulations. 

 Stress simulation in order to obtain data on the strength of the soldering of electronic parts on 

the boards. 

 Stress simulations of the electrical connectors for determining the degree of their reliability, as 

well as the contact areas at different temperatures. 

 Linear dynamics, frequency and spectral simulations. 

 Determination of the optimal damping system (vibration isolation, shock absorber) for 

individual electronic components, boards and electronic devices. 

 Stress simulations with respect to hyperelastic (hyperelastic, hyperfoam) properties of 

gaskets and shock absorbers made of rubbers and polymers. 
 

 Stress simulations of plastics (polymers) parts – with respect to viscoelasticity and 

viscoplasticity. 
 

 small experience with stress simulations of reinforced polymeric composites. 

 
1986–1995 Research Institute
Stress engineer 
 

 Coupled stress / thermal simulations - propagation of explosion shock waves in elastoplastic 

media (soild) and interaction of shock waves with above-ground and underground structures, 
pipelines, tanks. 

 Determination of parameters of motion underground constructions exposed to explosion 

shock waves. 

 Stress simulations of steel and/or concrete building constructions. 

Resumes Valery and Sergey Anpilov 

P*** 4 

 Stress simulations of shock absorbing systems for building constructions containing 

equipment and personnel. 

Professional skills: 

Software: 

 COMSOL (2017-present) 
 ABAQUS/Standard, ABAQUS/Explicit, ABAQUS/Implicit , ABAQUS/CAE (2007-present) 
 ANSYS (Structural, Thermal, Workbench, Fatigue, DesignExplorer) (1986-2007) 
 ANSA (2015-present)
 HyperMesh (2016-present) 
 MCalibration (2016-present) 
 AutoCAD (1997-present) 
 SolidWorks (2001-present) 

Specialization: 

 
Stress and thermal simulations. 
 

Equations states (material models) that I used performing stress / thermal simulations: 

 

Linear elasticity 

 

Porous elasticity 

 

Linear Viscoelasticity 

 

Creep 

 

Hypoelasticity 

 

Hyperelasticity (including Mullins effect, Hysteresis ,

 

Hyperfoam (Hyperelasticity in elastometric foams) 

 

Linear viscoelasticity 

 

Nonlinear Viscoelasticity 

 

Permanent set in rubberlike materials 

 

Metal plasticity 

 

Classical metal plasticity 

 

Models for metals subjected to cyclic loading 

 

Annealing or melting 

 

Johnson-Cook plasticity 

 

Dynamic failure models 

 

Porous metal plasticity 

 

Cast iron plasticity 

 

Deformation plasticity 

 

Dam*** and failure for ductile metals 

 

Dam*** (initiation and for evolution) and failure ductile materials in low-cycle fatigue analysis 

 

Extended Drucker-Pr***r models 

 

Modified Drucker-Pr***r/Cap model 

 

Mohr-Coulomb plasticity 

 

Critical state (clay) plasticity model 

 

Crushable foam plasticity models 

 

Concrete

 

Concrete smeared cracking 

 

Cracking model for concrete 

 

Concrete dam***d plasticity 

 

Dam*** and failure for fiber-reinforced composites 

Foreign 
langu***s: 

English (reading technical documentation, speaking proficiency - intermediate) 

Marital status: 

Married. 
Son – 33 years old – PhD, Lomonosov’s Moscow State University,
Computational mathematics and cybernetics department. 

Resumes Valery and Sergey Anpilov 

P*** 5 

Cell phone: 

+7.903. Показати контакти  

Contacts: 

e-mail: ******************

ICQ: 413740236 
Skype: valery.anpilov 

Resumes Valery and Sergey Anpilov 

P*** 6 

Curriculum Vitae 

Sergey 

Valerievich 

Anpilov 

first name second name surname 

E-mail: ****************** 
Mob.Phone: +7 (963) 977-38-43 
ICQ 489884802
Skype: cwl.net 

https://www.linkedin.com/in/sergey-anpilov-20131485/ 

*** 

28 years old 

NATIONALITY 

Russian 

EDUCATION 

 2008 – graduated from Lomonosov’s Moscow 

State University www.msu.ru/en/ 
Computational Methods Department, with 
«applied mathematics and cybernetics» diploma. 

 2008 – entered a post-graduate studies program at Lomonosov 

Moscow State University. Dissertation work is related to modeling of 
reduction cell – magneto-hydrodynamic stability, single – and 
multiphase approach (Navier-Stokes and Maxwell systems of 
equations coupling). 

 2011 – finished post-graduate studies with Ph.D degree. 

PROFESSIONAL SKILLS: 
COMPUTERS: 

Software: 
 
 
 

Programming: 

AutoCAD Inventor, PRO/Engineer (Creo), SolidWorks, Altair HyperWorks 
Desktop; 
Star-CCM+, ANSYS/CFX, ANSYS/Fluent, IcePak, COMSOL; 
Microsoft Visual Studio, Embarcadero RAD Studio (Borland Delphi); 
Delphi, C, C++, Fortran, Oberon, Modula; 

WORKING EXPERIENCE: 
 
 
 
 
 
 
 
 
 
 

 From Aug. 2008 to present time - engineer at CAE-Services LLC 

(

http://cae-services.ru

); 

 From Nov. 2011 to present time - Senior Researcher at All Russian 

Thermal Engineering Institute (

http://vti.ru/en

); 

 From Dec. 2011 to present time - junior research 

associate at Lomonosov’s Moscow State 
University – Department of Computational Mathematics and 
Cybernetics (

http://www.msu.ru/en

); 

 From Aug. ***************** – CFD-engineer at “Oil And Gas 

Engineering Company - All-Union Research Institute for Construction 
and Operation of Pipelines, Enterprises of Fuel and Energy Sector. “ 
(

http://en.vniist.ru/corp/129.htm

); 

 Computer modeling of fluid flows with related physical phenomena: 

free surface, coupled heat and mass transfer, condensation (on solid 
surface and/or liquid jet streams); 

FOREIGN LANGU***S: 

English (fluent), French (basic), German(basic), Irish (basic) 

MARITAL STATUS: 

Single 

INTERESTS & HOBBY: 

Ninjutsu, hydroponic flowers cultivation, history, 
mythology, celtic langu***s, tea ceremony