A Review on Ultrasonic-Assisted Forming: Mechanism, Model, and Process

AbstractCompared with conventional forming processes, ultrasonic-assisted forming technology with a high frequency and small amplitude can significantly improve the forming quality of materials. Owing to the advantages of reduced forming force, improved surface quality, avoidance of forming defects, and strengthened surface structure, ultrasonic-assisted forming technology has been applied to increasingly advanced forming processes, such as incremental forming, spinning, and micro-forming. However, in the ultrasonic-assisted forming process, there are multiple ultrasonic mechanisms, such as the volume effect and surface effect. The explanation of the effect of ultrasonic vibration (UV) on plastic deformation remains controversial, hindering the development of related technologies. Recently, many researchers have proposed many new theories and technologies for ultrasonic-assisted forming. To summarize these developments, systematic discussions on mechanisms, theoretical models, and forming performances are provided in this review. On this basis, the limitations of the current study are discussed. In addition, an outlook for ultrasonic-assisted forming is proposed: efficient and stable UV systems, difficulty forming components with complex geometry, explanation of the in-depth mechanism, a systematic theoretical prediction model, and multi-field-coupling energy-assisted forming are considered to be hot spots in future studies. The present review enhances existing knowledge of ultrasonic-assisted forming, and facilitates a fast reference for related researchers.

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Upscaling of foam forming technology for pilot scale

TAPPI Journal ◽

10.32964/tj18.8.461 ◽

2019 ◽

Vol 18 (8) ◽

Cited By ~ 1

Author(s):

JANI LEHMONEN ◽

TIMO RANTANEN ◽

KARITA KINNUNEN-RAUDASKOSKI

Keyword(s):

Production Efficiency ◽

Strength Loss ◽

Pilot Scale ◽

Foam Density ◽

Forming Process ◽

Production Scale ◽

Forming Technology ◽

Wet Pressing ◽

Foam Forming ◽

Board Industry

The need for production cost savings and changes in the global paper and board industry during recent years have been constants. Changes in the global paper and board industry during past years have increased the need for more cost-efficient processes and production technologies. It is known that in paper and board production, foam typically leads to problems in the process rather than improvements in production efficiency. Foam forming technology, where foam is used as a carrier phase and a flowing medium, exploits the properties of dispersive foam. In this study, the possibility of applying foam forming technology to paper applications was investigated using a pilot scale paper forming environment modified for foam forming from conventional water forming. According to the results, the shape of jet-to-wire ratios was the same in both forming methods, but in the case of foam forming, the achieved scale of jet-to-wire ratio and MD/CD-ratio were wider and not behaving sensitively to shear changes in the forming section as a water forming process would. This kind of behavior would be beneficial when upscaling foam technology to the production scale. The dryness results after the forming section indicated the improvement in dewatering, especially when foam density was at the lowest level (i.e., air content was at the highest level). In addition, the dryness results after the pressing section indicated a faster increase in the dryness level as a function of foam density, with all density levels compared to the corresponding water formed sheets. According to the study, the bonding level of water- and foam-laid structures were at the same level when the highest wet pressing value was applied. The results of the study show that the strength loss often associated with foam forming can be compensated for successfully through wet pressing.

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Schwingungsüberlagertes Axialformen/Superimposed Oscillated Axial Forming

wt Werkstattstechnik online ◽

10.37544/1436-4980-2020-11-12-102 ◽

2020 ◽

Vol 110 (11-12) ◽

pp. 838-843

Author(s):

Philipp Müller ◽

Bernd-Arno Behrens ◽

Sven Hübner ◽

Hendrik Vogt ◽

Daniel Rosenbusch ◽

...

Keyword(s):

Surface Quality ◽

Economic Importance ◽

Combined Effect ◽

Wird Eine ◽

Forming Force ◽

Forming Process ◽

Forming Technology ◽

Great Economic Importance ◽

Gear Geometry

Techniken zur Steigerung der Formgebungsgrenzen in der Umformtechnik sind von hoher wirtschaftlicher Bedeutung. In dieser Arbeit wird eine Schwingungsüberlagerung im Krafthauptfluss eines Axialformprozesses zur Ausprägung einer Verzahnungsgeometrie untersucht. Die Auswirkungen der Schwingung auf die erzielbare Ausfüllung der Zahnkavitäten werden analysiert sowie die Parameter Schmierung und Oberflächengüte der Halbzeuge in ihrer kombinierten Wirkung untersucht. Es konnte eine Reduzierung der mittleren Umformkraft sowie eine Erhöhung der Formfüllung festgestellt werden. Techniques for extending the production limits in forming technology are of great economic importance. In this research, a superimposed oscillation in the main force flow of an axial forming process to form an axial gear geometry is investigated. The effects of the superimposed oscillation on the achievable form-filling of the tooth cavities are analyzed and the parameters lubrication and surface quality of the semi-finished products are investigated in their combined effect. A reduction of the averaged forming force as well as an increase of the form-filling could be achieved.

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Numerical Simulation and Process Optimization of Automotive Friction Materials in Warm Pressing Forming

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.788.57 ◽

2013 ◽

Vol 788 ◽

pp. 57-60

Author(s):

Chun Cao ◽

Chun Dong Zhu ◽

Chen Fu

Keyword(s):

Process Optimization ◽

Heating Temperature ◽

Maximum Energy ◽

Heating Time ◽

Product Performance ◽

Forming Process ◽

Friction Materials ◽

Forming Technology ◽

The Relationship ◽

Temperature Heating

Warm pressing forming technology has been gradually applied to the forming of automotive friction materials. How to ensure product performance to achieve the target at the same time achieve the maximum energy saving is the research focus of this study. In this paper, by using finite element method, the field of automotive friction materials in warm pressing forming was analyzed, reveals the relationship between the temperature field and the heating temperature/heating time. Furthermore, the energy consumption was analyzed and compared it with hot pressing forming process. The results will have significant guiding to the process optimization in warm pressing forming.

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Cold Forging Effect on the Microstructure of Motorbike Shock Absorbers Fabricated by Tube Forming in a Closed Die

Applied Sciences ◽

10.3390/app11052142 ◽

2021 ◽

Vol 11 (5) ◽

pp. 2142

Author(s):

Trung-Kien Le ◽

Tuan-Anh Bui

Keyword(s):

Material Flow ◽

Cold Forging ◽

Technological Parameters ◽

Forming Process ◽

Tube Forming ◽

Shock Absorbers ◽

Thin Walled Tube ◽

Thin Walled ◽

Quality Of Products ◽

Forming Defects

Motorbike shock absorbers made with a closed die employ a tube-forming process that is more sensitive than that of a solid billet, because the tube is usually too thin-walled to conserve material. During tube forming, defects such as folding and cracking occur due to unstable tube forming and abnormal material flow. It is therefore essential to understand the relationship between the appearance of defects and the number of forming steps to optimize technological parameters. Based on both finite element method (FEM) simulations and microstructural observations, we demonstrate the important role of the number and methodology of the forming steps on the material flow, defects, and metal fiber anisotropy of motorbike shock absorbers formed from a thin-walled tube. We find limits of the thickness and height ratios of the tube that must be held in order to avoid defects. Our study provides an important guide to workpiece and processing design that can improve the forming quality of products using tube forming.

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A New Stretch-Forming Process Based on Loading at Discrete Points and its Numerical Investigation

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.423-426.737 ◽

2013 ◽

Vol 423-426 ◽

pp. 737-740

Author(s):

Zhong Yi Cai ◽

Mi Wang ◽

Chao Jie Che

Keyword(s):

Sheet Metal ◽

Three Dimensional ◽

Discrete Point ◽

Stretch Forming ◽

Sheet Metal Part ◽

Metal Part ◽

Forming Process ◽

Loading Trajectory ◽

New Process ◽

Forming Defects

A new stretch-forming process based on discretely loading for three-dimensional sheet metal part is proposed and numerically investigated. The gripping jaw in traditional stretch-forming process is replaced by the discrete array of loading units, and the stretching load is applied at discrete points on the two ends of sheet metal. By controlling the loading trajectory at the each discrete point, an optimal stretch-forming process can be realized. The numerical results on the new stretch-forming process of a saddle-shaped sheet metal part show that the distribution of the deformation on the formed surface of new process is more uniform than that of traditional stretch-forming, and the forming defects can be avoided and better forming quality will be obtained.

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Coupled Thermo-Mechanical FEA of Three-Roll Cross Rolling Process for Rings with Small-Hole and Deep Groove

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.560-561.846 ◽

2012 ◽

Vol 560-561 ◽

pp. 846-852 ◽

Cited By ~ 3

Author(s):

Qi Ma ◽

Lin Hua ◽

Dong Sheng Qian

Keyword(s):

Rolling Process ◽

Small Hole ◽

Fe Model ◽

Forming Process ◽

Software Environment ◽

Cross Rolling ◽

Design And Optimization ◽

Forming Technology ◽

Deep Groove ◽

Plastic Forming

Ring parts with small-hole and deep groove such as duplicate gear and double-side flange, are widely used in various engineering machineries. Three-roll cross rolling (TRCR) is a new advanced plastic forming technology for the processing of rings with small-hole and deep groove. In this paper, a 3D coupled thermo-mechanical FE model for TRCR of ring with small-hole and deep groove is established under ABAQUS software environment. By simulation and analysis, the evolution and distribution laws of strain and temperature in the forming process are revealed, and the effects of the key process parameters on the deformation uniformity are explored. The results provide valuable guideline for the technological parameter design and optimization.

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Flexible Stretch Forming Technology for Sheet Metal Based on Discrete-Gripper and Multi-Point Die

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.556-562.460 ◽

2014 ◽

Vol 556-562 ◽

pp. 460-463 ◽

Cited By ~ 2

Author(s):

Xue Chen ◽

Ming Zhe Li ◽

Wen Hua Liu ◽

Zhi Qiang Hou

Keyword(s):

Sheet Metal ◽

Experimental Results ◽

Shape Error ◽

Stretch Forming ◽

Forming Process ◽

Structural Composition ◽

Forming Technology ◽

Working Principle ◽

Material Utilization

To solve the problem of low material utilization in traditional stretch forming process, a flexible stretch forming method was proposed, which can be realized by interaction of the multi-point stretch forming die with discrete-gripper stretch forming machine. The principle and characteristics of sheet metal flexible stretch forming technology was introduced, structural composition and working principle of the multi-point stretch forming die and discrete-gripper stretch forming machine were expounded, and the technology experiments was carried out with a self-designed flexible stretch forming technology equipment for sheet metal. The experimental results indicate that structure of multi-point stretch forming die and discrete-gripper stretch forming machine are reasonable, and flexible stretch forming technology can be realized by above-mentioned die and machine, stretch forming parts has a good quality and its shape error can satisfy requirements of production.

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Principle and Simulation Study on Multi Point-Single Point Incremental Combined Forming for Sheet Metal

Materials Science Forum ◽

10.4028/www.scientific.net/msf.626-627.273 ◽

2009 ◽

Vol 626-627 ◽

pp. 273-278 ◽

Cited By ~ 1

Author(s):

X.J. Li ◽

Ming Zhe Li ◽

C.G. Liu ◽

Zhong Yr Cai

Keyword(s):

Sheet Metal ◽

Single Point ◽

Experimental Result ◽

Work Piece ◽

The Novel ◽

Forming Process ◽

Explicit Finite Element ◽

Forming Defect ◽

Forming Technology ◽

Elastic Cushion

Based on Multi-Point (MP) forming technology and Single-Point Incremental (SPI) forming technology, MP-SPI combined forming method for sheet metal is proposed, the principle and two different forming techniques are illustrated firstly. Then the paper is focused on numerical analysis for the novel forming technique with explicit Finite Element (FE) algorithm. During simulation of spherical work-piece, dimpling occurs as a main forming defect in MP-SPI combined forming process. Simulation results show that the dimpling defect can be suppressed effectively by using elastic cushion. An appropriate thickness of elastic cushion is necessary to prevent dimpling. And also the deformation of the work-piece is sensitive to the shape of elastic cushion. The combined forming test shows that the numerical simulation result is closed to the experimental result.

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Constitutive modeling and deformation analysis for the ultrasonic-assisted incremental forming process

The International Journal of Advanced Manufacturing Technology ◽

10.1007/s00170-019-04031-3 ◽

2019 ◽

Vol 104 (5-8) ◽

pp. 2287-2299 ◽

Cited By ~ 1

Author(s):

Yanle Li ◽

Zinan Cheng ◽

Xiaoxiao Chen ◽

Yangyang Long ◽

Xiaoqiang Li ◽

...

Keyword(s):

Constitutive Modeling ◽

Incremental Forming ◽

Deformation Analysis ◽

Forming Process ◽

Ultrasonic Assisted

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The Optimization Design Study of Warm Extrusion Forming Technology for Piston Head Semi-Processed

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.803.375 ◽

2013 ◽

Vol 803 ◽

pp. 375-378 ◽

Cited By ~ 2

Author(s):

Qing Qing Lv ◽

Qi Ming Guan ◽

Li Quan Yang ◽

Xi Kui Wang

Keyword(s):

High Performance ◽

Optimization Design ◽

Orthogonal Experiment ◽

Range Analysis ◽

Forming Process ◽

Molding Method ◽

Piston Head ◽

Forming Technology ◽

Extrusion Forming ◽

Warm Extrusion

Aiming at the problems of high performance piston head can not produced by using casting and hot die forging, the warm extrusion molding method is proposed, based on the analysis of factors influencing for forming, rational scheme of orthogonal experiment was designed, a series of analysis for simulation results by using the range analysis method and comprehensive balance method, the optimal forming process parameters combination are identified, the optimal result are verified by the DEFORM software.

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