會員登錄
軟體搜尋
您的位置: 網站首頁 >> 專業繪圖 >> 3D動畫CADCAMCAE >> 商品詳情
商品詳情
|
商品編號:CID4400 碟片數量:1片 銷售價格:80 瀏覽次數:8173 
【轉載TXT文檔】 |
您可能也喜歡:
CID13175--Plexim PLECS 5.0.1 x64 專業的電子電力電路系統仿真類比軟體 英文破解版
DVD31624--MSC Simufact Additive 2025.4 x64 工藝仿真分析軟體 英文破解版(DVD一片裝)
DVD31626--nTopology 5.39.2 x64 下一代工程設計軟體 英文破解版(DVD一片裝)
DVD31628--Simufact Joining Optimizer 2025.2 x64 機械連接工藝的仿真與優化軟體 英文破解版(DVD一片裝)
DVD31629--Cresset Flare v11.0.0 x64 綜合性藥物發現軟體 英文破解版(DVD一片裝)
商品描述
Thermo Prop v1.4.1 英文正式版(物理化學熱建模仿真軟體)
軟體簡介:
Thermo Prop v1.4.1 英文正式版(物理化學熱建模仿真軟體)
Thermo-Prop是一款物理化學熱建模仿真軟體。
Major thermophysical property data are of fundamental importance to accurate
and reliable design of melting and casting processes. These data must be known
for the entire temperature range of interest. In addition, computer algorithms
for predicting microstructure require that precision data within the critical
mushy zone also be known. Typical thermophysical properties of casting alloys
of interest to foundrymen include: transformation temperatures, density, specific
heat, latent heat, thermal conductivity and diffusivity, electrical resistivity,
surface tension and viscosity.
In order to optimize casting processes, computational models of solidification
have proven to be very valuable to foundrymen. Current computer models can predict
casting feedability, macroporosity formation, and even the development of grain
structure in some alloys. The accuracy and efficacy of computer simulations depend
decisively upon the accurate thermophysical properties of the alloys over a wide
range of temperatures, including the mushy zone and the completely molten temperature
region.
Summarily, accurate input data are critical for successful computer simulation of
casting processes. As computer algorithms are increasingly called upon to model
more complex solidification events and predict microstructures and mechanical
properties, reliable thermophysical property data are important.
At the Institute of Engineering Thermophysics (affiliated with the National Academy
of Sciences), a Thermo-Prop software has been developed to calculate important
material properties needed in modelling and simulation. Thermo-Prop software is a
database of thermophysical property data specifically for ferrous, copper and
aluminium alloys. The calculations of the Thermo-Prop software have been validated
with numerous experiments. A key feature of the measurement activity is the
development of techniques to cross-check property data to increase reliability.
Thermo-Prop software is an important new data source for all metals refiners,
metallurgists, materials scientists and engineers needing to understand the
thermophysical properties of alloys for casting, primary or secondary refining.
The software is also indispensable to all users of mathematical modelling processes.
Over 520 users of Thermo-Prop software worldwide!
IET's areas in research are: Inverse problem methodical development and its
applications to determine parameters of heat transfer - Interfacial heat transfer
coefficient - Thermal conductivity of mould materials Experimental measurement of
thermal properties - Enthalpy-related properties - Thermal conductivity - Density -
Viscosity - Surface tension Process metallurgy - Flow behaviour of molten metals
- Solidification processing of metallic alloys - High-temperature chemical processing
of materials Mathematical modelling and computation methods
Software for casting simulation:
ProCAST
CALCOSOFT
PAM-QuikCAST
MAGMAsoft
ConiferCast
Flow3D
CastCAE
Novacast
SIMTEC
CAPCAST
MAVIS
AFS Solidification System (3D)
Filling simulation
Casting simulation
Fraction residual melt
Experiment set-up for heat transfer measurement
Apparatuses for measuring thermophysical properties
軟體簡介:
Thermo Prop v1.4.1 英文正式版(物理化學熱建模仿真軟體)
Thermo-Prop是一款物理化學熱建模仿真軟體。
Major thermophysical property data are of fundamental importance to accurate
and reliable design of melting and casting processes. These data must be known
for the entire temperature range of interest. In addition, computer algorithms
for predicting microstructure require that precision data within the critical
mushy zone also be known. Typical thermophysical properties of casting alloys
of interest to foundrymen include: transformation temperatures, density, specific
heat, latent heat, thermal conductivity and diffusivity, electrical resistivity,
surface tension and viscosity.
In order to optimize casting processes, computational models of solidification
have proven to be very valuable to foundrymen. Current computer models can predict
casting feedability, macroporosity formation, and even the development of grain
structure in some alloys. The accuracy and efficacy of computer simulations depend
decisively upon the accurate thermophysical properties of the alloys over a wide
range of temperatures, including the mushy zone and the completely molten temperature
region.
Summarily, accurate input data are critical for successful computer simulation of
casting processes. As computer algorithms are increasingly called upon to model
more complex solidification events and predict microstructures and mechanical
properties, reliable thermophysical property data are important.
At the Institute of Engineering Thermophysics (affiliated with the National Academy
of Sciences), a Thermo-Prop software has been developed to calculate important
material properties needed in modelling and simulation. Thermo-Prop software is a
database of thermophysical property data specifically for ferrous, copper and
aluminium alloys. The calculations of the Thermo-Prop software have been validated
with numerous experiments. A key feature of the measurement activity is the
development of techniques to cross-check property data to increase reliability.
Thermo-Prop software is an important new data source for all metals refiners,
metallurgists, materials scientists and engineers needing to understand the
thermophysical properties of alloys for casting, primary or secondary refining.
The software is also indispensable to all users of mathematical modelling processes.
Over 520 users of Thermo-Prop software worldwide!
IET's areas in research are: Inverse problem methodical development and its
applications to determine parameters of heat transfer - Interfacial heat transfer
coefficient - Thermal conductivity of mould materials Experimental measurement of
thermal properties - Enthalpy-related properties - Thermal conductivity - Density -
Viscosity - Surface tension Process metallurgy - Flow behaviour of molten metals
- Solidification processing of metallic alloys - High-temperature chemical processing
of materials Mathematical modelling and computation methods
Software for casting simulation:
ProCAST
CALCOSOFT
PAM-QuikCAST
MAGMAsoft
ConiferCast
Flow3D
CastCAE
Novacast
SIMTEC
CAPCAST
MAVIS
AFS Solidification System (3D)
Filling simulation
Casting simulation
Fraction residual melt
Experiment set-up for heat transfer measurement
Apparatuses for measuring thermophysical properties