Basic mechanical experimental guidance: theoretical mechanics, material mechanics, fluid mechanicsPublishing time: 2011 Edition Introduction "Mechanical basic experimental guidance: theoretical mechanics, material mechanics, fluid mechanics" is the same as the undergraduate mechanics course (theoretical mechanics, material mechanics) , Fluid mechanics) supporting experimental teaching materials. The main contents include 3 experiments in theoretical mechanics simulation, 11 experiments in tensile and compression of material mechanics, and 8 experiments in fluid mechanics energy equation. These experiments are all mechanics-based experiments. The book not only has specific experimental instruction steps, but also an experimental report, which is convenient for students to fill in and submit. "Mechanical basic experimental guidance: theoretical mechanics, material mechanics, fluid mechanics" can be used as experimental textbooks in higher engineering colleges and higher vocational and vocational and mechanical engineering, mechanical, civil engineering, hydraulic engineering, aviation, shipbuilding, power, mining and electrical engineering and other professional mechanics courses.
Introduction Introduction Chapter 1. Theoretical Mechanics Experiments Section 1. Static Equilibrium Analysis Experiments of Load-bearing Structures Section 2. Kinematics Analysis Experiments of Crank-Slider Mechanisms Section 3. Dynamics Analysis Experiments of Double-Swing Rod Mechanisms
Chapter 2 Materials Mechanics Experiment Section 1 Tensile Experiment Section 2 Compression Experiment Section 3 Torsion Experiment Section 4 Resistance Strain Gauge Paste Experiment Section 5 Normal Stress Experiment of Pure Bending Beam Section 6 Concentric Tie Rod Experiment Section 7 etc. Strength beam experiment Section 8 Bending and torsion composite beam experiment Section 9 Eccentric tie rod experiment Section 10 Compression rod experiment Section 11 Stacked beam experiment Section 12 Material mechanics experiment equipment
Chapter 3 Fluid mechanics experiment Section 1 Reynolds experiment Section 2 Energy-saving equation experiment Section 3 Momentum law experiment Section 4 Head loss experiment along the way Section 5 Local head loss experiment Section 6 Pitot speed measurement section Section 7 Siphon principle Experiments Section VIII Cavitation Mechanism Experiments Section IX Fluid Mechanics Experiment Apparatus-Appendix to the Comprehensive Experimental Bench Appendix a to some national standards related to engineering mechanics experiment Conversion Appendix d The main reference of the experimental report submitted by the student