1)cantilever[英]['k?nt?li:v?(r)][美]['k?nt?'liv?]微懸臂
1.Design and Development of Cantilever in AFM/STM;AFM/STM系統中微懸臂的設計和研制
2.The special structure of the lens body of the atomic force microscope system and the manufacture and detection method of the new-type cantilever are introduced in detail.闡述該原子力顯微鏡的工作原理、組成及應用,詳細介紹了該AFM鏡體的獨特結構和新型微懸臂的制作及其檢測方法。
3.To solve the question that piezoelectric microcantilever in atomic force microscope (AFM) vibrates at the frequency nearby resonance in tapping mode, the vibration model of microcantilever is proposed and the first several vibration modes are simulated.針對原子力顯微鏡AFM(Atomictorcemicroscope)在輕敲工作模式下微懸臂在諧振頻率附近振動的問題,依據振動學理論和仿真分析的方法,建立了微懸臂的振動模型,仿真出了微懸臂前幾階的振動模態。
英文短句/例句
1.Study on the Quality Factor Control Technology of the Microcantilever;微懸臂梁品質因數Q控制技術的研究
2.Reliability for Microcantilever Device Manufacture Craft微懸臂梁器件制作工藝的可靠性研究
3.Research on Fabrication of Silicon Micro-cantilevers based on MEMS Technology基于MEMS技術硅微懸臂梁制作工藝研究
4.Cantilever Dynamics of AFM Scanning Over Quantum Dots;原子力顯微鏡掃描量子點的微懸臂動力學研究
5.CONTROLLING CHAOTIC MOTION IN THE MICROCANTILEVER OF AN ATOMIC FORCE MICROSCOPY原子力顯微鏡微懸臂梁的混沌運動控制
6.Keywords: micro-cantilever sensor, mechanical model, piezo-resistive materials, finite element method.關鍵詞:微懸臂梁感測器、學模型、阻材料、限元素法。
7.The Fracture Reliability Model of Polycrystalline Silicon Microcantilever;多晶硅微懸臂梁斷裂失效的可靠性模型建立
8.Application of ANSYS in analyzing temperature field of FPA;ANSYS在FPA結構微懸臂梁溫度場分析中的應用
9.Bi-Material Microcantilever’s Thermomechanical Performance and Materials Selection: An Analysis;雙金屬微懸臂梁的選材及熱機械性能分析
10.Research of Microcantilever Biochemical Sensing Technique Based on Optical Readout基于光學讀出的微懸臂梁生化傳感技術研究
11.Study on Methods of Calculation of Multi-layer Micro-cantilever Spring Constant多層微懸臂梁彈性常數的計算方法的研究
12.Studying the Mechanical Properties of Micro-Cantilever Beam Based on Neural Network基于神經網絡模型的微懸臂梁力學特性研究
13.Simulations of piezoresistive microcantilever sensors for surface stress measurements表面應力敏感型壓阻微懸臂梁傳感器的模擬
14.Sacrificial Layer Etching Technology and It's Application on Micro-cantilever Beam犧牲層腐蝕技術在微懸臂梁器件制作中的應用
15.Microcantilever Matrix Sensor Fabrication for Cell Traction Force Measurement微懸臂梁矩陣細胞牽引力測量傳感器研制
16.Label-free detection of clenbuterol based on microcantilever利用微懸臂梁傳感對瘦肉精進行非標記檢測
17.The Application of Microcantilever Array for Cell Traction Force Measurement微懸臂梁陣列在細胞牽引力測量中的應用
18.Multi-physics Analysis of an Electrostatically Actuated Microcantilever in Viscous Fluids流體環境中靜電微懸臂梁的多場耦合仿真分析
相關短句/例句
microcantilever微懸臂
1.Theoretical computation on the shape changing displacement of AFM microcantilever;原子力顯微鏡微懸臂變形位移的理論計算
2.At present,there are two micro structure maded by MEMS technology:microbridge in the microbolometer FPA and bimaterial microcantilever of microcantilever detector.目前,應用MEMS技術制作的主要有微測輻射熱計微橋結構和微懸臂紅外探測器雙層懸臂結構2種。
3.A method to increase the detection sensitivity and to speed up analysis of microcantilever array biosensor is reported.微懸臂列陣傳感器在生物檢測方面具有快速、痕量和非標記的特性。
3)micro-cantilever微懸臂
1.This model used a STM to detect the shift of the micro-cantilever.該樣機采用掃描隧道顯微鏡檢測微懸臂的起伏 ,通過四維機械驅動和雙壓電陶瓷掃描 ,有效提高了掃描精度 ,擴大了掃描范圍 ,簡單適用的微懸臂使操作大大簡化。
2.We established the thermodynamic model of micro-cantilever with its variable regularity analysis,.利用準分子加工系統制備了長度750 μm的光熱微懸臂,采用波長655 nm 的紅光半導體激光作為驅動源,利用自制的控制監控系統進行了微懸臂的光熱膨脹性能測試實驗。
4)microcantilever微懸臂梁
1.Amplifying of the quality factor of AFM microcantilevers in liquid environment;提高液體中AFM微懸臂梁品質因數的研究
2.Microcantilever-based Sensors and Their Chemical and Biological Applications;微懸臂梁傳感器及其在生化領域的應用
3.Ultra-small mass detection based on a higher harmonics microcantilever in liquid;基于微懸臂梁高次諧波的微小質量檢測技術研究
5)Micro cantilever微懸臂梁
1.Progress on micro cantilever resonant gas sensors;微懸臂梁諧振式氣體傳感器研究進展
2.The mechanicalcharacteristics of micro cantilever are highlighted in the process of study andapplication.微懸臂梁結構在微觀領域有著廣泛的應用,而微懸臂梁結構的機械特性又是研發和使用過程最為關心的參數之一。
6)micromechanical cantilever微懸臂梁
1.Si/SiO 2 double-l a yer micromechanical cantilever resonato rs with electric-thermal excitation are fabricated by microelectronic and microm echincal technologies.制作了電熱激勵硅 /二氧化硅雙層微懸臂梁諧振器。
延伸閱讀
懸臂梁沖擊強度分子式:CAS號:性質:用懸臂梁形式測定的受試材料沖擊強度。試驗時將規定尺寸的試樣一端夾在試樣夾具上,然后釋放一個擺錘對試樣施加沖擊負荷使試樣破斷。記錄其吸收的能量而算得結果。試樣可以有缺口,也可以無缺口。其結果分別稱懸臂梁缺口沖擊強度或懸臂梁無缺口沖擊強度。試驗中的有關條件都在標準試驗方法中有明確規定,單位為kJ/m2。由于該試驗方法中被打斷的試樣飛出帶走的一部分能量(稱飛出功)無法精確計算,因此不能獲得材料破斷的確切能量數據,但由于操作簡便,故仍被廣泛使用。特別是對用簡支梁沖擊得不到結果的材料,可使用懸臂梁沖擊方法。
