英文字典中文字典


英文字典中文字典51ZiDian.com



中文字典辞典   英文字典 a   b   c   d   e   f   g   h   i   j   k   l   m   n   o   p   q   r   s   t   u   v   w   x   y   z       







请输入英文单字,中文词皆可:

beggary    
n. 赤贫

赤贫

beggary
n 1: a solicitation for money or food (especially in the street
by an apparently penniless person) [synonym: {beggary},
{begging}, {mendicancy}]
2: the state of being a beggar or mendicant; "they were reduced
to mendicancy" [synonym: {beggary}, {mendicancy}, {mendicity}]

Beggary \Beg"gar*y\, n. [OE. beggerie. See {Beggar}, n.]
1. The act of begging; the state of being a beggar;
mendicancy; extreme poverty.
[1913 Webster]

2. Beggarly appearance. [R.]
[1913 Webster]

The freedom and the beggary of the old studio.
--Thackeray.
[1913 Webster]

Syn: Indigence; want; penury; mendicancy.
[1913 Webster]


Beggary \Beg"gar*y\, a.
Beggarly. [Obs.] --B. Jonson.
[1913 Webster]


请选择你想看的字典辞典:
单词字典翻译
Beggary查看 Beggary 在百度字典中的解释百度英翻中〔查看〕
Beggary查看 Beggary 在Google字典中的解释Google英翻中〔查看〕
Beggary查看 Beggary 在Yahoo字典中的解释Yahoo英翻中〔查看〕

安装中文字典英文字典查询工具!


中文字典英文字典工具:
选择颜色:
输入中英文单字

































































英文字典中文字典相关资料:


  • Laser Additive Manufacturing - IPG Photonics Corporation
    Laser additive manufacturing is a flexible, high-speed process suited for both prototyping and industrial production LAM solutions offer high quality results in a wide variety of metals and non-metals, reducing the need for finishing processes, even for small or complex parts
  • Laser Additive Manufacturing (AM): Classification, Processing . . .
    Laser sintering (LS), laser melting (LM), and laser metal deposition (LMD) are presently regarded as the three most versatile laser-based additive manufacturing (AM) processes Laser-based AM processes generally have a complex nonequilibrium physical and chemical
  • Laser based additive manufacturing in industry and academia
    Additive manufacturing is defined by ISO 17296 and ASTM F2792 to be “the process of joining materials to make parts or objects from 3D model data, usually layer upon layer, as opposed to subtractive manufacturing methodologies” [99] The salient distinguishing feature of AM relative to conventional manufacturing processes is the computer-driven layer-by-layer construction or build-up of the
  • The Laser Manufacturing Process | Fundamentals of Process and Applicat
    The Laser Manufacturing Process is a comprehensive guide to industrial laser processes, offering insights into their fundamentals, applications across industries, production specifics, and characteristics, including mechanical, metallurgical, and geometrical aspects, as well as potential defects The book also investigates how industrial laser processes are developed and the diverse
  • Material-structure-performance integrated laser-metal additive . . .
    Laser-based additive manufacturing has the potential to revolutionize how components are designed Gu et al suggest moving away from a strategy that designs and builds components in a serial manner for a more wholistic method of optimization for metal parts The authors summarize several key developments in laser powder bed fusion and directed energy deposition and outline a number of issues
  • Laser-Based Additive Manufacturing Processes - ScienceDirect
    In 2000, laser additive manufacturing of the α,β Ti-6Al-4V alloy was demonstrated [43] In these experiments, the additive manufacturing process of the Ti-6Al-4V alloy was investigated using a Nd:YAG laser and a CO 2 laser The microstructure that evolved after processing showed a strong dependence on the laser type
  • Intelligent laser-based metal additive manufacturing: A review on . . .
    The utilization of metal Additive Manufacturing (AM) has led to substantial progress in the manufacturing process of metal components Evaluating the influence of the wide variety of factors related to the material type, AM process, and the resultant microstructure and properties is not easy and accurate by traditional engineering strategies Therefore, one of the most effective ways to
  • (PDF) Lasers in additive manufacturing: A review - ResearchGate
    In this regard, lasers are the most effective energy source in additive manufacturing since the laser beam can transfer a large amount of energy into micro-scale focal region instantaneously to
  • A critical review of process monitoring for laser-based additive . . .
    In the laser additive manufacturing process, which uses a laser beam to melt metallic powders and create layers, several defects can occur, such as porosity, lack of fusion, delamination, and cracking Due to the high laser power intensity, contact sensors are unsuitable, leading to the utilization of non-contact sensors for data collection [26
  • Laser Additive Manufacturing: Metal Production - LASERLINE
    Laser Additive Manufacturing Calm process control – homogeneous, pore-free, and crack-free layers of material: additive manufacturing with top-notch effectiveness To the examples Process Advantages Examples Additive Manufacturing Applications – Overview The main tool involved in metal additive manufacturing is a system which contains a
  • Improved surface quality components enabled by dual-laser additive . . .
    Additive manufacturing (AM) processes, especially the versatile laser powder bed fusion (LPBF) technology, are capable of fabricating highly complex metallic parts with the relatively high precision and surface quality [1], [2], [3], compared with another mainstream process-laser directed energy deposition (LDED) which is generally inherent with a high surface roughness of 50 μm [4]
  • Powder Bed Based Laser Additive Manufacturing Process of Stainless . . .
    The powder bed laser additive manufacturing process of stainless steel are reviewed in this paper The process parameters was found to plat an important role in the evolving properties of the powder bed based laser additive manufacturing process The paper ends with the perspective of future research directions
  • Artificial Intelligence for Control in Laser-Based Additive . . .
    Laser-based additive manufacturing (LAM) offers the ability to produce near-net-shape metal parts with unparalleled energy efficiency and flexibility in both geometry and material selection Despite advantages, these processes are inherently, as they are characterized by multiphysics interactions, multiscale phenomena, and highly dynamic behaviors, making their modeling and optimization
  • An overview of Direct Laser Deposition for additive manufacturing; Part . . .
    Laser-based additive manufacturing has been a work in progress for many decades – with roots in powder metallurgy, laser welding, arc welding and more The substrate is the ‘stage’ in which the additive manufacturing process occurs Like PBF-L, the finished part(s) must be sheared off from the substrate after the AM process
  • 3D Laser Printing: Additive Manufacturing Process and Applicable . . .
    Except for thin sheet laminating processes (such as ultrasonic additive manufacturing, which uses an ultrasonic generator to form a solid-state weld between metal foils prior to processing) and metal adhesive jetting processes (in which an adhesive is sprayed onto a bed of metal powder), the metal additive manufacturing process relies primarily





中文字典-英文字典  2005-2009