Topology authentication for piping isometric drawings

Su, Zhiyong; Yang, Xin; Liu, Guangjie; Li, Weiqing; Tang, Weiqing

doi:10.1016/j.cad.2015.04.005

Cited by 6 publications

(3 citation statements)

References 30 publications

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“…The isometric transformation is used to project the Voronoi polygon in space onto the semi-cylindrical shell [ 46 , 47 , 48 ]. The geometric dimensions were the same as the regular hexagon, and the generation process is shown in Figure 6 b.…”

Section: Materials and Numerical Methodsmentioning

confidence: 99%

“…F a q P P − − (19) Combined with the Drucker-Prager plastic model, the Johson-Cook rate-related model, and the Mie-Grüneisen state equation and the JH-2 model is rewritten to describe The isometric transformation is used to project the Voronoi polygon in space onto the semi-cylindrical shell [46][47][48]. The geometric dimensions were the same as the regular hexagon, and the generation process is shown in Figure 6b.…”

Section: Materials Model Of Ceramicmentioning

confidence: 99%

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Numerical Investigation on the Ballistic Performance of Semi-Cylindrical Nacre-like Composite Shells under High-Velocity Impact

et al. 2023

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The nacre has excellent impact resistance performance, and it is attracting attention in the field of aerospace composite research. Inspired by the layered structure from nacre, semi-cylindrical nacre-like composite shells of brittle silicon carbide ceramic (SiC) and aluminum (AA5083-H116) were established. Two types of tablet arrangements (regular hexagonal and Voronoi polygons) of the composites were designed, and the same size of ceramic and aluminum shell were established for the impact resistance analyzed numerically. In order to better compare the resistance performance of the four types of structures under different impact velocity, the following parameters were analyzed including energy variation, damage characteristic, bullet residual velocity, and semi-cylindrical shell displacement. The results show that the semi-cylindrical ceramic shells have higher rigidity and ballistic limit, but the severe vibration after impact causes penetrating cracks, and the whole structure failure occurred eventually. The nacre-like composites have higher ballistic limits than semi-cylindrical aluminum shells, and the impact of bullets only causes local failure. In the same conditions, the impact resistance of regular hexagons is better than Voronoi polygons. The research analyzes the resistance characteristic of nacre-like composites and single materials, and provides a reference for the design of nacre-like structures.

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Section: Materials and Numerical Methodsmentioning

confidence: 99%

Section: Materials Model Of Ceramicmentioning

confidence: 99%

Numerical Investigation on the Ballistic Performance of Semi-Cylindrical Nacre-like Composite Shells under High-Velocity Impact

et al. 2023

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“…Using a parametric design system of modular Pipe-Z and its parametrization can be found a trefoil, a gure-eight knot, and a pentafoil (Zawidski & Nishinari, 2013). To provide good tamper localization accuracy can be designed a topology verification for drawings the piping isometric that is in robust versus local similarity displacement and invariant to the elongation process on pipes (Su et al, 2015). The study by Bizzarri et al (2015) presented an algebraic condition to give the guarantees that a canal surface possesses rational generalized contour, then, Moritani et al (2018) proposed a new method to built a piping system through cylinder-based registration and model fitting of laser-scanned point clouds.…”

mentioning

confidence: 99%

Pipes Construction Based on the Pipes' Centre Curve Shapes

Kusno¹

2019

JMR

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Parts of pipeline need a long piece, a short segment, and various inflate-deflate models. They require as well the thickness and curvature of the pipes. The objective of this paper is to obtain some formulas for modeling the long pipe, the short tube, and various inflate-deflate pipe patches. Relating to the purposes, we use their cross-section, longitudinal section, and center curves of the pipe parts. The methods are, the using of the polar coordinates and of the real functions, to define the cross and longitudinal section of the pipe patches, respectively. Then, we calculate three orthonormal vectors that are determined by the tangent vectors of the pipe center curves and two unit vectors that are perpendicular to the tangent vectors. After that, we evaluate the formulas to model the long pipes and the short pipes, both inflate-deflate and thickness shapes. The results show that, using its center curves of the pipe, it is handy to design the long and short pipes, multiple thicknesses, various volume fluctuations of the pipes, and useful to model the inflate-deflate pipe parts.There were presented some methods to define the pipeline models. Lü & Pottmann (1996) introduced an algorithm for computing the pipe surfaces of rational spine curve (center curve of pipe) that can admit a rational parameterization. Maekawa, et al. (1998) investigated the pipe surface intersection both local and global self-intersection. Then, using the unification of two cylinders of revolution defined by different radii, Malaček & Šibrava (2006) constructed the circular surfaces. Research by Moon (2009) studied the curvature effect of pipes spin curve. He used the radial distance function form to compensate for the distortion of the pipes. Meanwhile, we can present the geometric properties of canal surfaces in which their spine curves are in the form of a unit circle and a straight line (Öztürk et al., 2010). Also, we can evaluate the substantial form of transitional tube parts whose cross sections have a polygonal shape and made of materials that cannot be creased or prolonged (Obradovic et al., 2012). This geometrical theory is based on the classical line geometry, and it can be straightforwardly implemented to the conception of a computer algorithm that generates the middle surfaces between two polygons. Fok et al. (2012) introduced the method for reconstruction of disjoint surfaces with a single equation from sectional data. Using a parametric design system of modular Pipe-Z and its parametrization can be found a trefoil, a gure-eight knot, and a pentafoil (Zawidski & Nishinari, 2013). To provide good tamper localization accuracy can be designed a topology verification for drawings the piping isometric that is in robust versus local similarity displacement and invariant to the elongation process on pipes (Su et al., 2015). The study by Bizzarri et al. (2015) presented an algebraic condition to give the guarantees that a canal surface possesses rational generalized contour, then, Moritani et al. (2018) proposed a new method to built ...

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A unified framework for authenticating topology integrity of 2D heterogeneous engineering CAD drawings

Zhou

Mao

et al. 2016

Multimed Tools Appl

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Topology authentication for piping isometric drawings

Cited by 6 publications

References 30 publications

Numerical Investigation on the Ballistic Performance of Semi-Cylindrical Nacre-like Composite Shells under High-Velocity Impact

Numerical Investigation on the Ballistic Performance of Semi-Cylindrical Nacre-like Composite Shells under High-Velocity Impact

Pipes Construction Based on the Pipes' Centre Curve Shapes

A unified framework for authenticating topology integrity of 2D heterogeneous engineering CAD drawings

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Topology authentication for piping isometric drawings

Cited by 6 publications

References 30 publications

Numerical Investigation on the Ballistic Performance of Semi-Cylindrical Nacre-like Composite Shells under High-Velocity Impact

Numerical Investigation on the Ballistic Performance of Semi-Cylindrical Nacre-like Composite Shells under High-Velocity Impact

Pipes Construction Based on the Pipes&#39; Centre Curve Shapes

A unified framework for authenticating topology integrity of 2D heterogeneous engineering CAD drawings

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Product

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Pipes Construction Based on the Pipes' Centre Curve Shapes