彈振應力變化 的英文怎麼說

中文拼音 [dànzhènyīngbiànhuà]
彈振應力變化 英文
springing stress variation
  • : 彈名詞1. (彈子; 小球形的東西) ball; pellet 2. (內裝爆炸物, 具有破壞和殺傷能力的東西) bullet; bomb
  • : 動詞1. (搖動; 揮動) shake; flap; wield 2. (奮起) brace up; rise with force and spirit
  • : 應動詞1 (回答) answer; respond to; echo 2 (滿足要求) comply with; grant 3 (順應; 適應) suit...
  • : Ⅰ名1 (力量; 能力) power; strength; ability; capacity 2 [物理學] (改變物體運動狀態的作用) forc...
  1. In view of bearing capacity of the elastoplastic theory analysis, the author made a comparison between the achieved bearing capacity limit load pi / 4 of round base ( space problem ) and the limit load pi / 4 of bar groundwork foundation design ( plane problem ) from soil mechanics at home and abroad as well as foundation criterion, and explained why the value of formula in present design criterion from soil mechanics is inclined to be conservative. in the light of the author ' s many years experience of vibration test on the spot and the research work of relevant projects, the author worked over the dynamic pile testing of the bearing capacity of foundation and batholith, and gathered the parameter of dynamic analysis and testing. the author also talked over the difficult point of pile foundation design criteria in present batholith engineering world, i. e. the confirmation of batholith bearing capacity of pile end, from the following aspects : a ) confirmation of single axis counter - pressure strength of rock in house ; b ) f. e. m calculation of elastoplastic model ; c ) calculation of soil mechanics ; d ) deep well load test

    然後,對巖土工程領域至今尚未解決,甚至不為人注意的考慮地基形的地基承載問題進行了實用的探討,提出了考慮地基形的地基承載上程計算方法;對基於塑性理論分析的地基承載國內尚未見報道的空間問題得到了圓形基礎(空間問題)的承載界限荷載p _ ( 1 / 4 ) ,並與國內外土學專著及地基基礎設計規范中的條形基礎(平面問題)的界限荷載p _ ( 1 / 4 ) ,進行了對比,從而定量上解釋了目前設計規范引用土學承載公式值偏於保守的這一情況;根據本文作者多年從事現場地基工程動試驗及相關課題的研究工作,本文以截頭錐模型模擬地基,對地基(巖基)承載的動測法進行了研究,為各類地基(包括巖基) ,匯總了動分析和檢測川的參數:針對日前巖土工程界用樁基設計規范中的難點? ?樁端巖基承載的確定問題,從巖石室內單軸抗壓強度確定、基於塑性模型的有限單元法計算、土學計算及深斤載荷試驗四方面進行了深入討論;本文作者根據多年現場載荷試驗的工程實踐,對深井荷試驗裝置的核心部分? ?反裝置,設計了側壁支撐反加載系統,該加載系統具有實用、簡便、穩定及安個等優點。
  2. The numerical results indicate that the deformation within the solid inner core is very small. however, in the fluid outer core, the changes of the displacement with relatively low spherical harmonic degree ( n < 10 ) is very complicated via the radius, due to the resonance near the eigenfrequenies of the core long - period oscillations. while the spherical harmonic degree of the loading is larger than 10, the deformation and the gravitational perturbation in the core are very small, and the earth ' s deformation response is dominantly represented as the radial displacement in the elastic mantle

    研究了地球在日月引潮和表面負荷作用下的形特徵,數值計算結果表明,在固體內核中的形很小,由於在長周期核模本徵頻率附近的共,液核中低階( n 10 )位移隨半徑的非常復雜,當負荷階數超過10時,地核中的形和擾動位都很小,地球的響主要表現為性地幔中的徑向位移,且隨深度增加急劇減弱,地表負荷love數與信號頻率的依賴關系很弱,給出了體潮love數計算的一種有效的近似處理方案。
  3. The effect of car body elastic vibration on the ride comfort is analyzed. the ride comfort and acceleration responses of the car system with rigid car body model or elastic car body model are studied and compared. finally by using ansys / ls - dyna software, the finite element impact models of car body with a rigid wall have been set up, then the displacement, velocity, acceleration and energy variation of the car body are analyzed and compared for before and after lightening cases under the condition of impact speed 5. 8m / s and 11. 8m / s

    本文利用ansys軟體建立了25k硬臥客車車體輕量前後的有限元模型,計算了車體的強度、剛度和模態,並對輕量前後的車體作了對比分析;然後,用nucars動學分析軟體建立了25k硬臥客車系統的數學模型,分析了動對平穩性的影響,並對剛性車體和輕量前後的性車體對平穩性和加速度響的影響作了對比分析;最後用ansys / ls - dyna軟體建立了25k硬臥客車車體輕量前後的動態顯式有限元模型,分別在5 . 8m / s和11 . 8m / s的速度下碰撞剛性墻,得到了車體的相對位移、速度、加速度和能量的過程,並作了對比分析。
  4. Vibration times hardly have effect on the changing of the elastic strain in the condition of the dynamic stress

    在動條件下,次幾乎對動中的沒有影響。
  5. Abstract : the wave equation, continuous equation for tower structure and the method of characteristic line, are derived in this paper, and variation of structure modulus of elasticity with strain and vibration frequency being considered, state of stress on the structure affected by earthquake wave is analyzed

    文摘:推導了高聳結構(桿件)波傳播運動方程、連續方程和特徵線求解方法.並考慮結構性模量隨動頻率的,對地震波作用下結構的受狀況進行了分析
  6. Researching on the technology if reverse order is to study strains if pits, structural systems if basement, environmental surwey and underpinnings. on account of emphasizing developing methods if checking strength if pick - ets, modemizing machenes of excavation and studying methods of underpinning is put forward and is a way if controlling the quality of pickets in sites, which leads an active effect ; synthetic application if rankintheory, spatial and time effect theory to excavation tl aanalyze the state of soil force and strain is brought forward and the time effect should be considered in the zone of clay, the formation and development of soil plasticity are analyzed and the most dangerous zone to decide how to excavate and where to begin is found ; analyzing the cause of picket settlement during reverse order and the differential settlement and discussing hlw to solute it. duringh the temporary survey and the environmental warship, bringing rorward the theory of environmental vibration and analyzing the state of soil force and probability of losing stabilization of soil under the effect of environmental vibration ; analyzing the state offeree in underground concrete wall by the method of mathematics and pointing out the place of the maximum force and deformation. based on systematic illustrating the reverse order, problems about application and development of reverse order and suggestions also are expressed

    鑒于國內外的研究把重點放在大發展工程樁的實驗室承載監測方法與設備、如何使土方開挖機械現代及對周圍建築的臨測方法上,本文提出了現場利用聲波層析成像技術監測鋼砼樁內部質量的方法與程序,並得出了聲波層析成像技術是砼樁的動態質量檢測的有效手段,這對指導施有積極、現實意義;提出了綜合運用朗肯土壓理論、基坑空間和時間效影響理論來分析逆作法施工過程中基坑邊坡土體情況,指出粘土地區也考慮時間效,並且進一步分析了基坑邊坡土體的塑性區形成和發展,找出邊坡最不利的區域,以確定地下室土體的挖掘的方式和順序,指出憑主觀臆斷與經驗來施工是不可取的;在分析、經較逆作法與大開挖順作法的地下室結構體系受情況及施工順序的不同,提出了節點處理技術;分析了逆作法施工期間樁的沉降原因及由此而產生的差異,並探討了解決的方法;本文還提出了環境動對土體邊坡穩定產生影響的觀點,並分析了在環境動影響下,土體的狀態及土休失穩破壞概率,並且還運用學知識和數學分析的方法定量地分析了地下混凝土墻受狀態,指出了被監測墻體的最大位置。
  7. With the consideration of the vertical wave effect of soil and soil - pile interaction, an approximate analytical solution to vertical vibration of pile system with variable impedance in visco - elastic layered soil is developed. a simplified and practical mathematical model for interaction between soil layers is proposed, and its applicability is theoretically investigated. based on this model and by using laplace transforms and the transmit property of impedance function, the analytical expression of the impedance function and solutions of the displacement and velocity response function in frequency domain and in time domain at the pile head are derived

    4 、從三維軸對稱土模型出發,對考慮樁土耦合作用、土層層間聯系以及樁周土豎向梯度條件下的成層粘性土中完整樁及阻抗樁系統縱向動問題進行了研究,提出了成層土中阻抗樁系統縱向動問題的近似解析解法和樁周土層層間相互作用的簡而實用的數學模型,並利用拉氏換和阻抗函數的傳遞性,獲得了成層土中任意段阻抗樁樁頂阻抗函數的解析表達式,以及樁頂速度導納和時域速度響解析解和半解析解。
  8. The mechanism is divided into finite elements and researched by ked method. then kinematic differential equations are established for each element and the general kinematic differential equations are built through assembling all the elements. a closed numerical method based on the mode superposition principle is employed to solve the equations

    將四連桿機構劃分為多個有限單元,建立其單元運動微分方程和系統運動微分方程,運用實型疊加法的閉式演算法求出機構在一個運動周期中各個廣義坐標方向的性位移,同時求出機構不同位置時各構件上動分佈情況、機構前四階情況。
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