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▶ Universal Testing Machine : RB Model301 UNITECH

Universal Testing Machine : RB Model301 UNITECH
  • 20 kN 까지 사용 가능한 twin column type electrimechanical 만능재료시험기
  • Power: 3 phase, 220V
  • Test speed: 0.001~1,000mm/min
  • Displacement resolution: 1㎛
  • Furnace, chamber를 이용한 environmental test 기능
  • 전용 Controller, S/W 및 분석프로그램을 적용한 digital closed loop control
  • Tensile, compression, bend, peel, shear, servo creep, constant loading, stress relaxation, user adjustable monotonic test
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▶ Universal Testing Machine: RB Model 302 Microload

Universal Testing Machine: RB Model 302 Microload
  • 5 kN 까지 사용 가능한 single column type electrimechanical 만능재료시험기
  • Power: 1 phase, 220 V
  • Test speed: 0.001~1,000 mm/min
  • Displacement resolution: 0.5㎛
  • 전용 Controller, S/W 및 분석프로그램을 적용한 digital closed loop control
  • Tensile, compression, bend, peel, shear, servo creep, constant loading, stress relaxation, user adjustable monotonic test
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▶ Universal Testing Machine: Instron 1361

  • 100 kN 까지 사용 가능한 Twin column type 만능재료시험기
  • Power: 3 phase, 220 V
  • Test speed: 0.001~25 mm/s
  • Displacement resolution: 1㎛
  • 전용 Controller, S/W 및 분석프로그램을 적용한 Digital closed loop control
  • Tensile, compression, bend, constant loading, stress relaxation, user adjustable monotonic test
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▶ High Pressure Torsion

High Pressure Torsion
  • 최대 하중: 100 Ton
  • 회전 속도: 1 RPM
  • 변위: 300 mm
  • 유압식 모터
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The ARAMIS 5M measures deformation and strain values from some 100% down to typically 0.01%
The dimensioning of components, the exact determination of material properties, the usage of new materials and the improvement of FE calculation models requires better understanding of the material and component behavior.
The deformation measuring system ARAMIS records ans object under load using CCD cameras. For each stage of load, the 3D coordinates of the object surface are calculated on the basis of digital image processing delivering also the 3D displacement and the strain.
ARAMIS is a non-contact measuring system, which is well suited for measuring three-dimensional deformation and strain distribution of real components under static or dynamic load.
* Applications
  • Material testing
  • Strength assessment
  • Component dimensioning
  • Examination of non-linear behavior
  • Characterization of creep and aging processes
  • Determination of forming limit curves (FLC)
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The ARGUS systems are available in different configurations in order to provide an optimum solution for each measuring task in forming analysis. ARGUS measures the deformation of sheet in the stamping process.
An electrochemically etched pattern deforms with the part during the stamping process and is optically recorded afterwards. The three-dimensional coordinates of the pattern are calculated and used to define the shape of the deformed part, strain distribution, thickness reduction and forming limit diagrams can be calculated and graphically displayed.
The clear graphical display of the measuring results allows for wasy verification of the shaping process. Areas with huge deformations are highlighted as 'Hot spots'
* Applications
  • Detection of areas with critical deformation
  • Solving complex forming problems
  • Optimization of stamping tools
  • Verification of stamping tools
  • Verification and optimization of numerical calculations
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▶In-situ SEM Testing Machine (Deben Micro-Testing Machine / SEM (CX-200))

In-situ SEM

  • Available test: tensile / compression / 3-point bending test
  • Maximum testing load: 5kN
  • Motor speed: 0.1 ~ 1.5 mm/min
  • SEM Magnification: X 15 ~ X 100,000
  • Acceleration Voltage: 1 ~ 30 kV
  • Resolution: 3nm (SEM Micrograph)
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▶ Micro Indentation with In-house Software

Micro Indentation with In-house Software
  • Spherical tip
  • Berkovich tip
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▶ Multi-Scale Simulation: FEM + Atomic simulation

Multi-Scale Simulation: FEM + Atomic simulation
The ABAQUS unified FEA product suite offers powerful and complete solutions for both routine and sophisticated engineering problems covering a vast spectrum of industrial applications.
In the automotive industry engineering work groups are able to consider full vehicle loads, dynamic vibration, multibody systems, impact/crash, nonlinear static, thermal coupling, and acoustic-structural coupling using a common model data structure and intergrated solver technology. Best-in-class companies are taking advantage of ABAQUS unified FEA to consolidate their processed and tools, reduce costs and inefficiencies, and gain a competitive advantage.
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LS-DYNA is a general purpose transient dynamic finite element program capable of simulating complex real world problems. It is optimized for shared and distributed memory unix, linux, and windows based platforms
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▶ MEMS (Micro-Electro-Mechanical Systems) Part.

MEMS (Micro-Electro-Mechanical Systems) Part.
DEFORM is an engineering software that enables designers to analyze metal forming, heat treatment, machining and mechanical joining processes on the computer rather than the shop floor using trial and error. Process simulation using deform has been instrumental in cost, quality and delivery improvements at leading companies for two decades. Today's competitive pressures require companies to take advantage of every toll at their disposal. DEFORM has proven itself to be extremely effective in a wide range of research and industrial applications. Scientific forming technologies corporation (SFTC) develops and supports the DEFORM system.
SFTC is available for consulting, training, contract simulation and software development on a project basis.
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▶ Tecplot

Tecplot360 is a numerical simulation and CFD visualization software that combines vital engineering plotting with advanced data visualization into one tool. it allows you to quickly plot and animate all your data exactly the way you want, as well as analyze complex data, arrange multiple layouts, and communicate your results with professional images and animations. Tecplot360 also helps save time and effort by automating routine tasks.
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The POPLA (Prefferred Orientation Package - Los Alamos) texture analysis software package, developed at Los Alamos by Fred Kocks and collaborators, provides a comprehensive treatment of material texture analysis by reducing, visualizing and discetrtizing texture data in a flexible format.
The distribution of crystal orientation, or texture, in polycrystalline materials is calculated and displayed by a wide variety of graphic format for comparison with published results. Once distributions have been determined, standard methods can be used to predict mechanical properties employed by industry to design and controll efficient metals and ceramics processing techniques.
POPLA is a set of computer programs that help analyze textures in materials. It is designed as a coherent package, but individual programs may be used seperately.
Compatibility with other packages is achieved through various conversion programs. POPLA is primary designed to evaluate pole figures generated by 4-circle goniometer x-ray diffraction equipment but can also be used with pole figures generated from other sources. POPLA's data analysis programs correct pole figure data for background x-ray counts, the drop in measured intensity which occurs at the edge of the sample due to geometric considerations, and sample misalignment. Two types of analysis, the harmonic method and the WIMV method, may be used to calculate the orientation distribution of the sample. Pole figures and orientation distributions determined by POPLA may be displayed for screen capture.
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