![]() ![]() Proper tensioning in paper mills is critical to paper production and minimizing downtime and production loss Strain gages are used to test critical valves in nuclear power plantsĬonveyor belt and conveyor track system monitoring. Residual stress testing on the cast and welded parts ![]() Very small strain gages are used to measure stresses on printed circuit boards Torque measurement testing on shafts and other rotating equipment Measuring the stresses on wind turbine blades, nacelles, and the towers themselves. Torque and power measurements on drive shafts of all kinds, in power plants, refineries, fans, turbines, and more. They are loaded into a hopper which weighs them and divides the overall weight by the item’s per unit weight in order to calculate the quantity. Items with identical weights such as screws, nails, et al, are often counted by their weight. Silos that empty their contents into trucks or train cars use strain-gage-based sensors on the silo itself that measure the weight of the contentsĬrushing machines use strain gages to detect stress spikes and shut down the machine if a jam has happened before the machine becomes damaged Weighing systems in manufacturing environments Industrial production line Weighing systems: Whole books have been written about this subject. the physical gluing or bonding it to a surface, is critical to getting a good measurement. The proper application of a strain gauge, i.e. Strain gages are also found at the heart of load, force, and pressure transducers, such as load cells and force transducers. It’s a fundamental requirement of product testing and is crucial not just for product reliability, but for public safety. We need to know how much and when a structure will bend so that we can ensure that it will work properly under real conditions. The DAQ system digitizes the conditioned signal, displays it on a screen, and records it to disk.ĭAQ systems designed to handle strain gages often have at least eight channels, and sometimes into the hundreds of channels in large-scale testing applications. The output of a strain gage is routed to a specialized signal conditioner that powers it, provides controls for “balancing” it before each test, and amplifies its small voltage output to one more suitable for digitizing. Solutions by industry Aerospace Automotive Civil Engineering Education E-mobility Heavy Machinery Industrial Maritime Power and Energy RailwayĪll solutions ADAS Testing Brake Noise Testing Brake Testing Structural Health Monitoring of Bridges Combustion Measurement Machine Condition Monitoring Electric Motor and Inverter Testing Electric Vehicle Testing Fatigue Testing FFT Spectrum Analyzer Harsh Environment Testing Human Body Vibration - ISO 2631 Modal Testing and Modal Analysis Octave Band Analyzer Orbit Analysis Order Analysis Ground Station Telemetry Power Analyzer Power Quality Analyzer Power Transformer Testing Renewable Energy Testing RT60 Measurement Road Load Data Acquisition Torsional Vibration Analysis Rotor Balancing Shock Response Spectrum Sine Reduction Test Sound Level Measurement Sound Intensity Measurement Sound Power Measurement Sound Quality Measurement Structural Health Monitoring Temperature Recording Vehicle Dynamics Testing Voltage Data Loggers Wind Turbine Monitoring Wind Power Quality It is a skill, like many others you will learn, and it will take time and practice to fully understand and become proficient.Ī visible line, or object line is a thick continuous line, used to outline the visible edges or contours of an object.Solution by area Acoustics Data Recording Flight/Space Testing Monitoring NVH Testing Electrical Power Testing Rotating Machinery Structural Dynamics Vehicle Testing Vibration Analysis ![]() When combined in a drawing, lines provide part of the Information needed to understand the print.īeing able to interpret a blueprint and accurately build objects is a needed skill to become successful in all trade crafts. Weight refers to line thickness or width. Each kind of line has a definite form and “weight”. ![]() Generally, there are 11 basic types of lines. Since technical drawings are made of lines, it is logical that the first step in learning to “read” a drawing is to learn the meaning of each kind of line. It is Important to remember, as you study Print Reading, that you are learning to communicate with the graphic language used by Industry: Lines are part of that language. Therefore, drawings have become the universal language used by engineers, designers, technicians, as well as craftsmen, to communicate the Information necessary to build, assemble and service the products of industry. It would be almost impossible for an engineer, designer, or architect to describe in words the shape, size, and relationship of a complex object. This statement is particularly true in regards to technical drawings. You have heard the saying, “A picture is worth a thousand words”. ![]()
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