rus
Issue #1/2020
A. KUZNETSOV
GEOMETRIC ACCURACY OF METAL CUTTING MACHINES: COMPENSATION, CORRECTION, CONTROL. PART 1
GEOMETRIC ACCURACY OF METAL CUTTING MACHINES: COMPENSATION, CORRECTION, CONTROL. PART 1
DOI: 10.22184/2499-9407.2020.18.1.40.47
The article describes basic methods for evaluating the accuracy characteristics of a tool. Through analysis and classification of the output parameters of the tool, which determine its accuracy, the main types of
errors occurring are considered: position,
movement, state. The article considers and
classifies the methods for assessing the
accuracy of metal-cutting machine tools:
mathematical, experimental and experimental-mathematical. By the type of information being transformed, methods for assessing the accuracy of machine tools are classified as deterministic, statistical, and probabilistic.
The article describes basic methods for evaluating the accuracy characteristics of a tool. Through analysis and classification of the output parameters of the tool, which determine its accuracy, the main types of
errors occurring are considered: position,
movement, state. The article considers and
classifies the methods for assessing the
accuracy of metal-cutting machine tools:
mathematical, experimental and experimental-mathematical. By the type of information being transformed, methods for assessing the accuracy of machine tools are classified as deterministic, statistical, and probabilistic.
Теги: accuracy of the tool correction and compensation of errors deterministic experimental and experimental-mathematical methods for assessing mathematical statistical and probabilistic methods for assessing accuracy детерминированные коррекция и компенсация погрешностей математические статистические и вероятностные методы оценки точности точность станка экспериментальные и экспериментально-математические методы оценк
GEOMETRIC ACCURACY OF METAL CUTTING MACHINES: COMPENSATION, CORRECTION, CONTROL. PART 1
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