製品
Pipe Subjected to Internal Pressure
This analysis example shows consideration of improved compressive strength design for pipe subjected to internal pressure.
Previous Method
Usually, in cases such as when a pipe is subjected to internal pressure, cracking occurs in the axial direction under applied circumferential pressure. Thereby, a method of adding additional reinforcing ribs by adding parts in the circumferential direction such as in the following model will be considered when you design with improved compressive strength.

The Present Case Method
Performing a study of material design for satisfying the pressure resistance using composite material, without the reinforcing ring or ribs.

This time, we conducted the structural design and micro material design at the same time for textile composite material (Figure 1) and stitch composite material of ±55 ° (Figure 2).
![]() Figure 1: Textile Composite Material |
![]() Figure 2: Stitch Composite Material |
Step 1: Homogenization Analysis
Calculate the equivalent physical properties of composite material (microstructure) by numerical material test using homogenization method.

Structural analysis: Elastic modulus, Shear elastic modulus, Young's modulus, Poisson's ratio
Heat transfer analysis: Thermal conductivity
Step 2: Macro Structural Analysis
Performing the macro structural analysis applying the equivalent property value obtained from homogenization analysis as material characteristics of macro structural.

Step 3: Localization Analysis
Solving localized results by micro structural analysis specifying an arbitrary area from the results of macro structural analysis.

Step 4: Micro Model Evaluation
All fibers in stitch composite material of ± 55 ° vertical and horizontal have assigned uniform stress. All fibers in textile composite material of 0 ° + 90 ° have assigned stress with a 1:2 ratio. As a result, it can be said that stitch composite material of ± 55 ° is very effective in the design of structural elements subjected to pressure.
![]() Stress occurring in textile composite material of 0 ° + 90 ° |
![]() Stress occurring in stitch composite material of ± 55 ° |
Data Provided
NITTO BOSEKI CO.,LTD.
Analysis Types
Homogenization Analysis、 Localization Analysis、 Macro Structural Analysis
関連情報
関連する解析事例
MORE関連する資料ダウンロード
MORE-
冷間鍛造解析による事前可視化
~Ansys LS-DYNAによるソリューション~
-
切削熱を伴う切削加工解析
~Ansys LS-DYNAによるヘルスケア分野ソリューション~
-
動脈硬化による血管内部の状態可視化
~Ansys LS-DYNAによるヘルスケア分野ソリューション~
-
SDGsとカーボンニュートラル実現へ向けた CFDによる水素バーナの燃焼解析
CFDによる水素バーナの燃焼解析
-
シリコンウェハ汚染予測ソリューション
-
~解析精度向上につながる~ 適切な材料特性の選定・取得ソリューション
-
【全記事】CAEのあるものづくり vol.41
ユーザー様インタビュー記事4件のほか、解析事例・製品紹介などの記事を1冊に集約した保存版
-
CMP(化学機械研磨)マクロスラリー 挙動解析ソリューション
回転パッド上のマクロスラリー挙動の解析ソリューション