首页|Chandigarh University Details Findings in Machine Learning (Material Extrusion-b ased Additive Manufacturing of Sandwiched Acrylonitrile Butadiene Styrene/glass Fibers Composites: Machine Learning Approach To Model Tensile Stress)
Chandigarh University Details Findings in Machine Learning (Material Extrusion-b ased Additive Manufacturing of Sandwiched Acrylonitrile Butadiene Styrene/glass Fibers Composites: Machine Learning Approach To Model Tensile Stress)
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By a News Reporter-Staff News Editor at Robotics & Machine Learning DailyNews Daily News – Investigators publish new report on Ma chine Learning. According to news reportingoriginating from Punjab, India, by N ewsRx correspondents, research stated, “Additive manufacturing (AM), also recogn ized as 3D printing, has gained significant attention in various industries for its potentialto revolutionize production processes. One critical aspect of AM i s ensuring the quality and performanceof printed parts, particularly concerning mechanical properties like tensile stress.”
PunjabIndiaAsiaAcrylonitrileAlka dienesAlkenesBenzene DerivativesBenzylidene CompoundsButadienesCyborgsEmerging TechnologiesHydrocarbonsMachine LearningNitrilesStyrenesCha ndigarh University
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