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関連する概念動画

Deformation in a Circular Shaft01:10

Deformation in a Circular Shaft

440
One of the distinctive characteristics of circular shafts is their ability to maintain their cross-sectional integrity under torsion. In other words, each cross-section continues to exist as a flat, unaltered entity, simply rotating like a solid, rigid slab. To understand the distribution of shearing stress within such a shaft, consider a cylindrical section inside this circular shaft. This section has a length of L and a radius of R, with one end fixed. The radius of the cylindrical section is...
440
Plastic Deformation in Circular Shafts01:20

Plastic Deformation in Circular Shafts

229
When materials are subjected to forces that surpass their yield strength, they undergo a process known as plastic deformation. This results in a permanent alteration or strain in their structure. This concept can be specifically applied to circular shafts, where the deformation leads to a change in its shape. The precise evaluation of this plastic deformation requires understanding the stress distribution within the circular shaft, which is achieved by calculating the maximum shearing stress in...
229
Rotation of Asymmetric Top01:11

Rotation of Asymmetric Top

993
By definition, a spherically symmetric body has the same moment of inertia about any axis passing through its center of mass. This situation changes if there is no spherical symmetry. Since most rigid bodies are not spherically symmetric, these require special treatment.
The relationship between the angular momentum of any rigid body and its angular velocity, both of which are vectors, involves the moment of inertia. The moment of inertia is a scalar quantity only for spherically symmetric...
993
Angle of Twist: Problem Solving01:13

Angle of Twist: Problem Solving

389
An electric motor applies a torque of 700 N·m to an aluminum shaft, triggering a stable rotation. Two pulleys, B and C, are subjected to torques of 300 N·m and 400 N·m, respectively. The modulus of rigidity is provided as 25 GPa. With the knowledge of the length and diameter of each segment, the twist angle between the two pulleys can be computed. First, a section cut is made between pulleys B and C, and the cut cross-section is analyzed using a free-body diagram. Given that the...
389
Curvilinear Motion: Rectangular Components01:23

Curvilinear Motion: Rectangular Components

620
Curvilinear motion characterizes the movement of a particle or object along a curved path, notably evident when envisioning a car navigating a winding road. If the car starts at point A, its position vector is established within a fixed frame of reference, where the ratio of the position vector to its magnitude signifies the unit vector pointing in the position vector's direction.
As the car advances, its position evolves over time. Quantifying the car's velocity involves computing the...
620
Sequence Networks of Rotating Machines01:24

Sequence Networks of Rotating Machines

140
A Y-connected synchronous generator, grounded through a neutral impedance, is designed to produce balanced internal phase voltages with only positive-sequence components. The generator's sequence networks include a source voltage that is exclusively in the positive-sequence network. The sequence components of line-to-ground voltages at the generator terminals illustrate this configuration.
Zero-sequence current induces a voltage drop across the generator's neutral impedance and other...
140

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Updated: Sep 8, 2025

Application of 3D Printing in the Construction of Burr Hole Ring for Deep Brain Stimulation Implants
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3D四角形の回転編みプロセスをシミュレートするためのモデル

Haiyang Mei1, Shouzheng Sun2, Jiale Ding3

  • 1School of Mechanical and Automotive Engineering, QingDao University of Technology, QingDao, 266520, China. meihy@qut.edu.cn.

Scientific reports
|August 24, 2025
PubMed
まとめ
この要約は機械生成です。

この研究では,3D四角形の回転編み物のシミュレーションモデルを導入し,新しい複合プリフォーム構造の作成を可能にします. このモデルは,プロセスパラメータの理解を高め,新しい編み物織物の開発を容易にする.

キーワード:
3Dロータリーブラッシング織物の構造プロセスモデリングシミュレーション

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科学分野:

  • 材料科学と工学
  • 製造プロセス
  • 繊維技術

背景:

  • 3D四角形の回転編織は,複合プリフォームの効率的な技術です.
  • 様々な構造の製造における現在の限界は プロセスの理解の欠如から生じています

研究 の 目的:

  • 3D四角形の回転編みプロセスのシミュレーションモデルを開発する.
  • 新しい編み物工法や織物の構造を探求する.
  • 伝統的織物製造の限界を克服するために

主な方法:

  • ホーン・ギアとスイッチの動きに基づいた糸の交配パターンを描く.
  • 複合座標系を使って 編み物処理をデジタル化する
  • キャリア経路を糸経路に変換することでプロセス構造モデルを確立する.

主要な成果:

  • このモデルは,プロセスパラメータが糸の交配に及ぼす影響を明らかにする.
  • 表面コアのデザインを含む新しい編み物構造が発見されました.
  • プロセスのパラメータを変更することで,新しい多層のインターロック構造が成功しました.

結論:

  • 開発されたモデルは,3D編み物プロセスとその構造を正確にシミュレートします.
  • このシミュレーションにより,新しい織布の設計が容易になり,その技術の可能性が示されます.
  • この研究は,複合プレフォーム製造のための3D四角形の回転編み物の能力を拡張します.