APPARATUS, METHOD AND PROGRAM FOR ESTIMATING BUCKLING STRESS INTENSITY
To provide an apparatus for estimating buckling stress intensity which allows for simpler calculation necessary for estimating buckling stress intensity compared with a case using Fourier series, and can formulate estimated results so as to be physically understood.SOLUTION: A buckling stress intens...
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| Language | English Japanese |
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21.01.2021
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| Abstract | To provide an apparatus for estimating buckling stress intensity which allows for simpler calculation necessary for estimating buckling stress intensity compared with a case using Fourier series, and can formulate estimated results so as to be physically understood.SOLUTION: A buckling stress intensity estimation apparatus 50 for estimating buckling stress intensity of a plate element which buckles with compression force applied in a direction along an x-axis and spreads along the x-axis extending in a material axis direction and a y-axis extending in a plate width direction includes: a displacement estimation unit 52 which estimates out-of-plane displacement of the plate element facing a direction along a z-axis when a half wavelength in the direction along the x-axis of the plate element which alternately displaces in a wavelike fashion in the direction along the z-axis as it goes toward a first end of the plate element in the direction along the x-axis is defined as (a); and a stress intensity calculation unit 53 which determines buckling stress intensity of the plate element which generates out-of-plane displacement based on energy approach.SELECTED DRAWING: Figure 2
【課題】フーリエ級数を用いた場合よりも座屈応力度の推定に必要な計算を簡単に行うとともに、推定結果を物理的に理解しやすく定式化できる座屈応力度の推定装置を提供する。【解決手段】材軸方向に延びるx軸及び板幅方向に延びるy軸に沿ってそれぞれ広がり、x軸に沿う方向に圧縮力が作用して座屈する板要素の座屈応力度を推定する座屈応力度の推定装置50であって、板要素のx軸に沿う方向の第1端に向かうに従い、z軸の各向きに交互に波状に変位する板要素の、x軸に沿う方向における半波長をaとしたときに、z軸に沿う方向に向けた板要素の面外変位を推定する変位推定部52と、面外変位を生じる板要素の座屈応力度を、エネルギー法に基づいて求める応力度算出部53と、を備える。【選択図】図2 |
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| AbstractList | To provide an apparatus for estimating buckling stress intensity which allows for simpler calculation necessary for estimating buckling stress intensity compared with a case using Fourier series, and can formulate estimated results so as to be physically understood.SOLUTION: A buckling stress intensity estimation apparatus 50 for estimating buckling stress intensity of a plate element which buckles with compression force applied in a direction along an x-axis and spreads along the x-axis extending in a material axis direction and a y-axis extending in a plate width direction includes: a displacement estimation unit 52 which estimates out-of-plane displacement of the plate element facing a direction along a z-axis when a half wavelength in the direction along the x-axis of the plate element which alternately displaces in a wavelike fashion in the direction along the z-axis as it goes toward a first end of the plate element in the direction along the x-axis is defined as (a); and a stress intensity calculation unit 53 which determines buckling stress intensity of the plate element which generates out-of-plane displacement based on energy approach.SELECTED DRAWING: Figure 2
【課題】フーリエ級数を用いた場合よりも座屈応力度の推定に必要な計算を簡単に行うとともに、推定結果を物理的に理解しやすく定式化できる座屈応力度の推定装置を提供する。【解決手段】材軸方向に延びるx軸及び板幅方向に延びるy軸に沿ってそれぞれ広がり、x軸に沿う方向に圧縮力が作用して座屈する板要素の座屈応力度を推定する座屈応力度の推定装置50であって、板要素のx軸に沿う方向の第1端に向かうに従い、z軸の各向きに交互に波状に変位する板要素の、x軸に沿う方向における半波長をaとしたときに、z軸に沿う方向に向けた板要素の面外変位を推定する変位推定部52と、面外変位を生じる板要素の座屈応力度を、エネルギー法に基づいて求める応力度算出部53と、を備える。【選択図】図2 |
| Author | MITSUI KAZUYA KITAOKA SATOSHI HIROSHIMA SATORU HANYA KOJI KUWATA RYOHEI |
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| DocumentTitleAlternate | 座屈応力度の推定装置、座屈応力度の推定方法、及び座屈応力度の推定プログラム |
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| Snippet | To provide an apparatus for estimating buckling stress intensity which allows for simpler calculation necessary for estimating buckling stress intensity... |
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| SubjectTerms | BUILDING CALCULATING CEILINGS COMPUTING COUNTING ELECTRIC DIGITAL DATA PROCESSING FIXED CONSTRUCTIONS FLOORS GENERAL BUILDING CONSTRUCTIONS INSULATION OR OTHER PROTECTION OF BUILDINGS INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIRCHEMICAL OR PHYSICAL PROPERTIES MEASURING MEASURING FORCE, STRESS, TORQUE, WORK, MECHANICAL POWER,MECHANICAL EFFICIENCY, OR FLUID PRESSURE PHYSICS ROOFS TESTING WALLS, e.g. PARTITIONS |
| Title | APPARATUS, METHOD AND PROGRAM FOR ESTIMATING BUCKLING STRESS INTENSITY |
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