Sentence examples for large scale and deep from inspiring English sources

Crystallographic structure of the layers was characterized by X-ray diffraction (XRD; Philips MRD), including θ 2θ scan, ω-scan, ϕ-scan, and pole figure to analyze the macrotexture since XRD gives average information about the texture over a large scale and deep layer.

Biological and physical impacts of large-scale and deep sand extraction are still being investigated and largely unknown.

Based on analyzing the characteristics of molds and dies characterized by large-scale and deep cavity and machining error, a new machining error compensation method was proposed.

The current study used two high-throughput sequencing techniques to provide the first large-scale and deep transcriptome analysis of rice plants infested with two insect pests.

For the dies and molds characterized by large-scale and deep cavity, the radius of curvature ρ is usually far greater than the horizontal radial displacement of the cutting tool which caused by cutting force.

In high-speed machining of the dies and molds characterized by large-scale and deep cavity, the offline error compensation method proposed in this work can obtain a higher machining dimensional accuracy and surface quality without sacrificing machining efficiency.

In high speed milling of the dies and molds characterized by large-scale and deep cavities with the lengthened shrink-fit holder (LSFH), the machining error caused by the tool deflection is not allowed to be ignored.

When a machine processes dies and molds characterized by large-scale and deep cavity, the workpieces have big volume and good rigidity, its stiffness is far greater than that of the cutting tool system.

In high-speed milling of dies and moulds characterized by large-scale and deep cavities, how to design and select an appropriate cutter is a key to improve efficiency, quality and optimize machining parameters.

Traditionally, the stiffness of the shank-chuck-tool system is so limited, whereas the semi-finishing and finishing machining of the dies and molds characterized by large-scale and deep cavity still mainly depends on electrical discharge machining (EDM) and manual polishing which will result in low efficiency and poor quality and cannot meet the needs of an increasingly competitive market.

For touching workpiece in high-speed machining of dies and molds characterized by large-scale and deep cavity, LSFH is more suitable than those traditional hold systems such as the collet chuck and the static pressure expansive chuck because of its simple structure, high balance accuracy, and high clamping strength (Zhou et al. 2012; Tony and Schmitz 2007; Zhang 2006).