Papers by Keyword: Static Property

Abstract: The 3D-model of lift transporter frame was assembled by the parts, whose 3D-models were established under UG. And the finite element model was achieved in ANSYS/ Workbench. Four different analysis conditions were developed and the static properties of the frame in various conditions were analyzed by ANSYS/Workbench. The analysis results indicate that the design of the special frame is feasible.

Abstract: We investigated quantum annealing (QA) via the transverse interaction with XY-type anisotropy for a ground state problem for a small composed of 4 S=1/2 quantum spins interacting with anti-ferromagnetic interactions with each other. By solving the Schrodinger equation for the QA system, we found that a preferable solution can be derived by tuning the XY-type anisotropy of the kinetic term among multiple candidates of the QA system. Similar behavior was suggested from the static property obtained by the spin wave theory established in statistical physics. In addition, we clarified that the ground state of the target system can be obtained by the QA starting from an initial state including excited states of the kinetic term, if the interval of time of the QA is set to be large to some extent.

Abstract: Based on the experimental study of its constitutive relations, uses the ABAQUS finite element analysis software to simulation analyzes the three-dimensional static property of one type of polyurethane vibration isolators. The numerical analysis and experimental result demonstrate that the material constitutive model built by this method can describe the three-dimensional static mechanical property of the polyurethane isolator accurately. This method provides certain reference value for establishment of the constitutive relations of other types of polyurethane isolator.

Abstract: Following an analysis of static performance of the prestressed arch supported by a single / double-layer reticulated shells ,Single/double -layer of shell bearing surface structure of the node center point displacement, upward displacement of the structure, the structure raised some pressure, sunken part of the tension.

Abstract: This paper presents high cycle fatigue properties of a Al-3%Ti thin film, used in a RF (radio-frequency) MEMS switch for a mobile phone. The thickness and width of the thin film of specimen are 1.1μm and 480.0μm, respectively. Tensile tests of five specimens are performed, from which the ultimate strength is found to be 144MPa. High cycle fatigue tests of six specimens are also performed, from which the fatigue strength coefficient and the fatigue strength exponent are found to be 336MPa and –0.1514, respectively.

Abstract: This paper presents a novel experimental method to investigate the strength of material, Al-3%Ti, which is commonly used in RF(radio frequency) microelectromechanical systems(MEMS) switch. The experimental method involves the development of a new tensile loading system. The new tensile loading system has a load cell with maximum capacity of 0.5N and a non-contact position measuring system based on the principle of capacitance micrometry with 0.1nm resolution for displacement measurement. A voice coil of audio speaker is used as the actuator of the loading system. And new specimen was designed and fabricated to easily manipulate, align and grip a thin-film for a tensile and fatigue test. The material used in this study was Al-3%Ti thin film, which was used in RF switch. The thickness and width of the thin film of specimen are 1.1µm and 480µm, respectively. The holes at center of grip end are able to make alignment and gripping easy. The bridges are to remove the side supports easily and extract specimen from wafer without sawing. Tensile tests were performed on 5 specimens. The ultimate strength of Al-3%Ti was 144MPa.

Abstract: Mechanical property evaluation of micrometer-sized structures is necessary to help design reliable microelectromechanical systems (MEMS) devices. Most material properties are known to exhibit dependence on specimen size and such properties of microscale structures are not well characterized. This paper describes techniques developed for tensile testing of materials used in MEMS. Epi-polycrystalline silicon is currently the most widely used material, and its tensile strength has been measured as 1.52GPa. We have developed an axial testing machine for testing microscale specimen using electro-magnetic actuator. The field magnet and the moving coil taken from an audio-speaker were utilized as the components of the actuator. Structure of specimen was designed and manufactured for easy handling and alignment. In addition to the static tensile tests, new techniques and procedures for measuring strength are described.