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Journal articles on the topic 'Forming and Mechanical Properties'

Author: Grafiati
Published: 3 June 2025
Last updated: 20 July 2025

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1

Shen, Hong, and Zhenqiang Yao. "Study on mechanical properties after laser forming." Optics and Lasers in Engineering 47, no. 1 (2009): 111–17. http://dx.doi.org/10.1016/j.optlaseng.2008.07.010.

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2

Sanders, J. E., and C. H. Daly. "How does vacuum forming affect Pelite mechanical properties?" Prosthetics and Orthotics International 18, no. 1 (1994): 43–48. http://dx.doi.org/10.3109/03093649409164670.

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Pelite® is a polyethylene closed cell foam commonly used as an interface material in prosthetics. Both normal and vacuum-formed Pelite were tested under compression and under shear loading. For shear testing, the results were not significantly different for normal and vacuum-formed Pelite. For normal Pelite, the slope of the stress-strain curve was 1.17MPa (±0.14) while for vacuum-formed Pelite it was 1.24MPa (±0.22). Compressive results, however, were significantly different. Below 80kPa of applied compression, the slope of the stress-strain curve for normal Pelite was 0.99MPa (±0.11) while f
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3

Datsko, J., and W. J. Mitchell. "Changes in mechanical properties in metal-forming processes." Journal of Materials Engineering and Performance 2, no. 2 (1993): 265–70. http://dx.doi.org/10.1007/bf02660295.

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4

SLIEPTSOV, ALEKSANDR, RUSLAN ISKANDAROV, IGOR SLIEPTSOV та VYACHESLAV KOBZA. "ВПЛИВ ПАРАМЕТРІВ АДИТИВНОГО ВИРОБНИЦТВА НА ВЛАСТИВОСТІ ВИРОБІВ З ФОТОПОЛІМЕРУ". Technologies and Engineering, № 4 (4 січня 2022): 81–87. http://dx.doi.org/10.30857/2786-5371.2021.4.8.

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Purpose. Study of the influence of additive manufacturing parameters and post forming operations on complex mechanical properties of the articles formed from UV curable acrylic oligomer. Methodology. Determination of physical and mechanical properties of standard samples which was formed by additive manufacturing technics from UV curable polymer. Tensile strength and relative elongation at brake according to ISO 527-2:2012, impact strength according to: ISO 179-1:2010. Durometer hardness according to:ISO 2039-1:2001. Bending modulus according to: ISO 178:2010. Density according to: ISO 1183-1:
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5

Kim, Young Wook, Shin Han Kim, Chul B. Park, and Hai Doo Kim. "Processing and Mechanical Properties of Microcellular Ceramics." Key Engineering Materials 317-318 (August 2006): 899–904. http://dx.doi.org/10.4028/www.scientific.net/kem.317-318.899.

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Recently, a novel processing route for fabricating microcellular ceramics has been developed. The strategy for making the microcellular ceramics involves: (i) forming some shapes containing a mixture of preceramic polymer, expandable microspheres and optional fillers by a conventional ceramic forming method, (ii) foaming the compact by heating, (iii) cross-linking the foamed body, and (iv) transforming the foamed body into microcellular ceramics by pyrolysis. The flexural strength and compressive strengths of the microcellular ceramics were investigated; values up to 30 MPa and 100 MPa, respec
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6

Takagi, Hitoshi, and Yoshiyuki Okitsu. "Enhancement in Mechanical Properties of Bamboo by Press Forming." Materials Science Forum 675-677 (February 2011): 647–50. http://dx.doi.org/10.4028/www.scientific.net/msf.675-677.647.

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Raw Japanese timber bamboo was hot-pressed in order to investigate its static and dynamic mechanical properties such as flexural strength, flexural modulus, and impact strength. The purpose of this work was to examine the effect of molding pressure on the mechanical properties of hot-pressed bamboo. The hot-pressing pressures used were varied from 5 to 100 MPa and hot-pressing temperature was fixed to be 160°C. The density, flexural strength and flexural modulus remarkably increased up to 20 MPa, and then gradually increased. However Izod impact strength showed different pressure dependence. I
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7

Battezzati, Livio, and G. M. Mortarino. "On thermophysical and mechanical properties of glass-forming alloys." Journal of Alloys and Compounds 483, no. 1-2 (2009): 222–26. http://dx.doi.org/10.1016/j.jallcom.2008.08.099.

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8

Young, A. M., L. Karp-Boss, P. A. Jumars, and E. N. Landis. "Quantifying diatom aspirations: Mechanical properties of chain-forming species." Limnology and Oceanography 57, no. 6 (2012): 1789–801. http://dx.doi.org/10.4319/lo.2012.57.6.1789.

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9

Scharifi, Emad, Moritz Roscher, Steffen Lotz, Ursula Weidig, Eric Jägle, and Kurt Steinhoff. "Functional Gradation in Precipitation Hardenable AA7075 Alloy by Differential Cooling Strategies." Key Engineering Materials 883 (April 2021): 159–66. http://dx.doi.org/10.4028/www.scientific.net/kem.883.159.

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Inspired by steel forming strategies, this study focuses on the effect of differential cooling on mechanical properties and precipitation kinetics during hot stamping of high strength AA7075 alloy. For this aim, different forming strategies were performed using segmented and differentially heated forming tools to provide locally tailored microstructures. Upon processing, uniaxial tensile tests and hardness measurements were used to characterize the mechanical properties after the aging treatment. Microstructure investigations were conducted to examine the strengthening mechanisms using the ele
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10

Rahman, Mujibur M., and A. M. Nor. "Effect of Feedstock Preparation and Forming Temperature to the Characteristics of Green Compacts." Advanced Materials Research 879 (January 2014): 245–50. http://dx.doi.org/10.4028/www.scientific.net/amr.879.245.

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This paper presents the outcomes of an experimental investigation on the effect of feedstock preparation to the mechanical properties and microstructures of green compacts formed at above ambient temperature. A lab-scale uni-axial die compaction rig was designed and fabricated which enabled the powder forming at elevated temperature. Iron powder ASC 100.29 was mechanically mixed with different quantity of zinc stearate for 10, 30, and 60 minutes, respectively. Green compacts were generated by forming the prepared feedstock at room temperature and 180oC through simultaneous upward and downward
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11

Chow, T. S. "Viscoelastic properties of glass-forming polymers." Journal of Materials Science 25, no. 2 (1990): 957–60. http://dx.doi.org/10.1007/bf03372185.

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12

Sajadifar, Seyed Vahid, Emad Scharifi, Ursula Weidig, Kurt Steinhoff, and Thomas Niendorf. "Performance of Thermo-Mechanically Processed AA7075 Alloy at Elevated Temperatures—From Microstructure to Mechanical Properties." Metals 10, no. 7 (2020): 884. http://dx.doi.org/10.3390/met10070884.

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This study focuses on the high temperature characteristics of thermo-mechanically processed AA7075 alloy. An integrated die forming process that combines solution heat treatment and hot forming at different temperatures was employed to process the AA7075 alloy. Low die temperature resulted in the fabrication of parts with higher strength, similar to that of T6 condition, while forming this alloy in the hot die led to the fabrication of more ductile parts. Isothermal uniaxial tensile tests in the temperature range of 200–400 °C and at strain rates ranging from 0.001–0.1 s−1 were performed on th
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13

Biresaw, G., S. C. Cermak, and T. A. Isbell. "Film-forming properties of estolides." Tribology Letters 27, no. 1 (2007): 69–78. http://dx.doi.org/10.1007/s11249-007-9207-z.

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14

Ko, Dae-Cheol, Dae-Hoon Ko, Jae-Hong Kim, and Joon-Hong Park. "Development of a partition panel of an Al6061 sheet metal part for the improvement of formability and mechanical properties by hot forming quenching." Advances in Mechanical Engineering 9, no. 2 (2017): 168781401769121. http://dx.doi.org/10.1177/1687814017691213.

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In this study, the hot forming quenching process was investigated to improve the deficiencies that arise in materials subjected to conventional cold stamping, such as low formability and undesirable mechanical properties. The hot forming quenching process was mainly discussed in terms of formability and mechanical properties in this study and was first evaluated by preliminary tests. To examine formability, an evaluation was conducted using hot-tensile and hemispherical-dome stretching tests at temperatures of 350°C and 450°C, respectively. In addition, the mechanical properties of the formed
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15

Mofidi Tabatabaei, Hamed, Shun Orihara, Tadashi Nishihara, and Takahiro Ohashi. "Mechanical Interlocking of Titanium and Steel Using Friction Stir Forming." Key Engineering Materials 792 (December 2018): 59–64. http://dx.doi.org/10.4028/www.scientific.net/kem.792.59.

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This study presents a novel method for mechanically interlocking dissimilar alloys of pure titanium with steel through using the principles of friction stir forming (FSF) technique. In present study, titanium plate is placed on top of a steel sheet containing a screwed hole. FSF is conducted on top of the titanium alloy, which produces sufficient heat to plasticize the alloy. This results in a flow of titanium into the screw hole in the steel, due to the plastic deformation, thereby mechanically interlocking titanium with the steel. The mechanical properties of the developed interlock are inve
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16

Liu, Quan Xiao, Fei Ma, and Jun Yang. "Packaging Mechanical Properties of Composite Paperboard." Applied Mechanics and Materials 395-396 (September 2013): 582–86. http://dx.doi.org/10.4028/www.scientific.net/amm.395-396.582.

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The effects of different kinds of pulp on structure and packaging mechanical properties of composite board. The results show that in order to obtain maximum ring crush strength of composite board, in the forming process of composite board, wheat straw pulp is used as outer layer because it has strong bonding force and higher fibrosis degree. Waste news paper pulp is used as inner layer because its cost is low.
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17

Lee, Jae Gwan, Yong Jae Lee, and Dong Geun Lee. "Effect of Microstructure Change on Mechanical Properties after High Temperature Forming of Ti-6Al-4V Alloy." Solid State Phenomena 349 (September 6, 2023): 3–8. http://dx.doi.org/10.4028/p-6zarey.

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Ti-6Al-4V alloy is not easy to machine complicated shapes due to its low thermal conductivity, so high-temperature forming techniques such as ring-rolling are being applied. When this high-temperature forming technology is applied, the microstructure is greatly changed by process variables, and the mechanical properties of the forming product are also different accordingly. In particular, in the case of the Widmanst tten structure, α lamellar spacing and colony size have a great influence on mechanical properties. Therefore, in this study, the most suitable process conditions were selected by
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18

Mihu, Georgel, Sebastian-Marian Draghici, Vasile Bria, Adrian Circiumaru, and Iulian-Gabriel Birsan. "Mechanical Properties of Some Epoxy-PMMA Blends." Materiale Plastice 58, no. 2 (2021): 220–28. http://dx.doi.org/10.37358/mp.21.2.5494.

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The thermoset polymers and the thermoplastic polymers matrix composites require different forming techniques due to the different properties of two classes of polymers. While the forming technique for thermoset polymer matrix composites does not require the use of special equipment, the thermoplastic polymer matrix composites imposes the rigorous control of temperature and pressure values. Each type of polymer transfers to the composite a set of properties that may be required for a certain application. It is difficult to design a composite with commonly brittle thermoset polymer matrix showin
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19

Xia, L., K. C. Chan, L. Liu, and G. Wang. "Glass forming ability and mechanical properties of Zr50Cu42Al8bulk metallic glass." Journal of Physics D: Applied Physics 41, no. 22 (2008): 225410. http://dx.doi.org/10.1088/0022-3727/41/22/225410.

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20

Men, H., S. J. Pang, and T. Zhang. "Glass-forming ability and mechanical properties of Cu50Zr50−xTix alloys." Materials Science and Engineering: A 408, no. 1-2 (2005): 326–29. http://dx.doi.org/10.1016/j.msea.2005.08.207.

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21

Zhang, Lin, Xiaowei Chen, Dan Li, Qu Xuanhui, Qin Mingli, and Zhou Li. "Net-Shape Forming and Mechanical Properties of MIM418 Turbine Wheel." Journal of Materials Engineering and Performance 25, no. 9 (2016): 3656–61. http://dx.doi.org/10.1007/s11665-016-2150-0.

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22

Ashwin, S. S., Y. Brumer, David R. Reichman, and Srikanth Sastry. "Relationship between Mechanical and Dynamical Properties of Glass Forming Liquids†." Journal of Physical Chemistry B 108, no. 51 (2004): 19703–10. http://dx.doi.org/10.1021/jp047137m.

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23

Wang, Tao, Jianhua Zhang, Wenfeng Bai, and Shimei Hao. "Forming process and mechanical properties of fibers-reinforced polymer concrete." Journal of Reinforced Plastics and Composites 32, no. 12 (2013): 907–11. http://dx.doi.org/10.1177/0731684413478476.

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24

Rentería-Zamarrón, D., D. A. Cortés-Hernández, L. Bretado-Aragón, and W. Ortega-Lara. "Mechanical properties and apatite-forming ability of PMMA bone cements." Materials & Design 30, no. 8 (2009): 3318–24. http://dx.doi.org/10.1016/j.matdes.2008.11.024.

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25

Okayasu, Mitsuhiro, and Ryo Naito. "Mechanical properties of the riveted connecting forming of CFRP plates." International Journal of Material Forming 11, no. 2 (2017): 225–32. http://dx.doi.org/10.1007/s12289-017-1344-9.

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26

Lepizzera, S., C. Lhommeau, G. Dilger, T. Pith, and M. Lambla. "Film-forming ability and mechanical properties of coalesced latex blends." Journal of Polymer Science Part B: Polymer Physics 35, no. 13 (1997): 2093–101. http://dx.doi.org/10.1002/(sici)1099-0488(19970930)35:13<2093::aid-polb10>3.0.co;2-#.

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27

Bleck, Wolfgang, Joachim Ohlert, and Kostas Papamantellos. "Sheet metal forming behaviour and mechanical properties of TRIP steels." Steel Research 70, no. 11 (1999): 472–79. http://dx.doi.org/10.1002/srin.199905669.

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28

Yan, Ziqin, Ang Xiao, Peng Zhao, Guang Yang, Shu Wang, and Xiaohui Cui. "Microstructure and mechanical properties of AA5052 after electromagnetic hydraulic forming." Materials Characterization 205 (November 2023): 113347. http://dx.doi.org/10.1016/j.matchar.2023.113347.

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29

Matsuo, Takanori, Alexandre Gomes, Koichi Goda, and Jun Ji Ohgi. "Improvement of Mechanical Properties of Curaua Fiber Green Composites." Key Engineering Materials 334-335 (March 2007): 369–72. http://dx.doi.org/10.4028/www.scientific.net/kem.334-335.369.

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Environment-friendly green composites were developed by combining a biodegradable resin with curaua fibers. The composites were fabricated by three different methods, i.e. direct, pre-forming and prepreg sheets methods. Mechanical properties of composites fabricated by all three methods were evaluated through tensile test. Moreover, green composites reinforced by fibers treated with high concentration alkali solution were fabricated by pre-forming and prepreg sheets methods. The results showed that fracture strain of alkali-treated fiber composites increased twice to three times larger than th
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30

Du, Zhi Ming, Jun Liu, Jia Hong Niu, Wang Qi Zhao, and Sen Cong. "Investigation of 2024 Aluminum Alloy Flange Semi-Solid Thixoforging by Changing Cavity." Advanced Materials Research 834-836 (October 2013): 425–31. http://dx.doi.org/10.4028/www.scientific.net/amr.834-836.425.

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Microstructure and mechanical properties of 2024 aluminum alloy flange semi-solid thixoforging by changing cavity was investigated. Theoretical calculation and forming test were adopted to study the preparation of flange. It is concluded that the influence factors of forming limit of flanges are radical load P, friction τ and thickness t by theoretical calculation. The results show that it is uniform in the process of forming. Microstructure and mechanical properties of flange have been improved significantly with the increase of the radical load. Way of variable cavity realized the real plast
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31

Kosiba, K., Kaikai Song, U. Kühn, Gang Wang, and S. Pauly. "Glass-forming ability, phase formation and mechanical properties of glass-forming Cu-Hf-Zr alloys." Progress in Natural Science: Materials International 29, no. 5 (2019): 576–81. http://dx.doi.org/10.1016/j.pnsc.2019.08.009.

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32

Rigas, N., and M. Merklein. "Development of a novel forming tool for the production of high-strength aluminum components with tailored properties." IOP Conference Series: Materials Science and Engineering 1307, no. 1 (2024): 012020. http://dx.doi.org/10.1088/1757-899x/1307/1/012020.

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Abstract Because of growing environmental and technical requirements, the efficient manufacturing of components with tailored properties using recyclable materials is mandatory. The combination of high-strength aluminum alloys and thermal-assisted forming operations is an innovative method for the production of components with varying mechanical properties. By locally adjusting the cooling rates during a thermo-mechanical forming operation, it is possible to modify the microstructure and precipitation conditions. A subsequent aging operation causes different microstructural and mechanical char
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33

Chen, Yizhe, Yi Lin, Hui Wang, Zhiwen Liu, and Lin Hua. "Improvement of Mechanical Properties and Forming Efficiency during Hot Gas Forming of CFRP Curved Surface Components." Materials 14, no. 18 (2021): 5316. http://dx.doi.org/10.3390/ma14185316.

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Carbon fiber reinforced plastics (CFRP) are widely used in aerospace and new energy vehicles due to their high specific strength and flexible design ability. At present, the traditional forming process of CFRP curved surface components has problems of low mechanical properties and long processing time. In this paper, a new method of hot gas forming was proposed to obtain CFRP components. By applying high temperature and high-pressure gas on one side of CFRP, the material was forced to deform and solidify at the same time. A special device for hot gas forming was designed and developed. The cur
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34

Ning, Yu, Ying Chun Han, and Chun Yan Wang. "Redesign of a Complicated Component of Auto Body Based on the Properties of TWBs." Advanced Materials Research 97-101 (March 2010): 3151–60. http://dx.doi.org/10.4028/www.scientific.net/amr.97-101.3151.

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With a synthetic study on the mechanical properties and deformability of TWBs, and an advanced mechanical analysis of weld-line movement, the theoretic basis for the whole forming and redesign of a complicated component of auto body (body side-inner panel) was achieved. Then a preliminary redesign was conducted with the selection and collocation of parent metal, the layout of the welding position, and the design of integral forming drawing taken into consideration. Thereafter, by simulation forming and parametric optimization, the redesign of the component was completed and its stamping formin
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INOU, Norio, Shigeki FUKUSHIMA, Naoko SHIMOTAI, and Sadayuki UJIHASHI. "Study of Group Robots Adaptively Forming A Mechanical Structure. Effect of Mechanical Properties of Cellular Robots on Forming the Structure." Transactions of the Japan Society of Mechanical Engineers Series C 64, no. 618 (1998): 617–22. http://dx.doi.org/10.1299/kikaic.64.617.

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36

Zeng, Huaqiang, Dongfeng Shi, Ying Zheng, and Jin Zhang. "Effect of the Second Phases on Composite Spinning-Extrusion Forming and Mechanical Properties of Al–Cu–Li Alloy." Materials 16, no. 9 (2023): 3573. http://dx.doi.org/10.3390/ma16093573.

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The aim of this work is to investigate the effect of different second phases on the composite spinning-extrusion forming and mechanical properties of Al–Cu–Li alloy. With that purpose, four kinds of second phases blanks were controlled using preheating treatment, composite spinning-extrusion forming and mechanical properties test. Then, the correlation between the second phases and mechanical properties was further analyzed using electron backscattered diffraction and transmission electron microscopy. The results indicated that different second phases of Al–Cu–Li alloy can be regulated via rea
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37

Li, Yuebing, Wei Fang, Chuanyang Lu, et al. "Microstructure and Mechanical Properties of 34CrMo4 Steel for Gas Cylinders Formed by Hot Drawing and Flow Forming." Materials 12, no. 8 (2019): 1351. http://dx.doi.org/10.3390/ma12081351.

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An integral manufacturing process with hot drawing and cold flow forming was proposed for large-diameter seamless steel gas cylinders. The main purpose of this study was to find out the effects of the manufacturing process on the microstructure and mechanical properties of gas cylinders made of 34CrMo4 steel. Two preformed cylinders were produced by hot drawing. One cylinder was then further manufactured by cold flow forming. The experiments were carried out using three types of material sample, namely, base material (BM), hot drawing cylinder (HD), and cold flow-formed cylinder (CF). Tensile
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38

Meng, Yi, Hui Min Zhou, Jia Lin Gan, and Sumio Sugiyama. "Microstructural Evolution of SKD11 Tool Steel during Multi-Stage Thixoforming and Subsequent Heat Treatments." Solid State Phenomena 285 (January 2019): 45–50. http://dx.doi.org/10.4028/www.scientific.net/ssp.285.45.

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The application of semisolid forming (SSF) is inhibited significantly by the inhomogeneous distributions of microstructure and mechanical properties in the products manufactured by SSF. Beside of forming parameters including forming temperature, isothermal holding time, and forming speed, post heat treatments of SSF is one of the most important facts affecting the microstructure and mechanical properties of the SSF-manufactured products. In this study, heat treatments including annealing, quenching, and tempering different experimental conditions were conducted on the SKD11 tool steel samples
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39

Kyshenia, Andrii, Lydmila Vinnikova, Tat’yana Volovik, Evgenii Kotlyar, and Kateryna Garbazhiy. "INVESTIGATION OF THE ROLE OF PLASTICIZERS IN FILM-FORMING COATS FOR PROTECTING COOLED MEAT." EUREKA: Life Sciences 2 (March 30, 2018): 27–34. http://dx.doi.org/10.21303/2504-5695.2018.00594.

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As a result of theoretical studies on problems of protection and prolongation of storage terms of meat, it was revealed, that one of promising directions is to use protecting coats, based on natural biopolymers. The topicality of this study is in studying film-forming coats, based on natural polysaccharides, because they have high mechanical indices, absence of a smell, taste and are subjected to biological destruction. For regulating mechanical properties, the composition of film-creating coats is added with plasticizers of different origins. The aim of this work is in describing characterist
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40

Luo, Ai Hui, Wen Jiao Dan, and Wei Gang Zhang. "Investigation of the Effect of Heating-Lines on Tensional Mechanical Properties of Sheet Metal after Laser Forming." Applied Mechanics and Materials 117-119 (October 2011): 1666–71. http://dx.doi.org/10.4028/www.scientific.net/amm.117-119.1666.

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In this study,tensional mechanical properties of sheet metal with different heating-lines after laser forming are investigated. The basic mechanical properties of material (such as elastic modulus, yield strength, ultimate strength, TEI (total elongation index) and EIU (elongation index of uniform)) with different spacing between neighbored heating-lines and different heating-lines number are presented. The stress-strain curves are complied with a modified Swift law, where the hardening coefficient and strain hardening exponent of material are controlled by strain. The influence of heating-lin
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41

Weiss, M., M. E. Dingle, B. F. Rolfe, and P. D. Hodgson. "The Influence of Temperature on the Forming Behavior of Metal/Polymer Laminates in Sheet Metal Forming." Journal of Engineering Materials and Technology 129, no. 4 (2007): 530–37. http://dx.doi.org/10.1115/1.2772329.

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The influence of temperature on the forming behavior of an aluminum/polypropylene/aluminum (APA) sandwich sheet was studied. Shear and tensile tests were performed to determine the mechanical properties of the laminate and the component materials as a function of process temperature. The forming limit diagram (FLD) of the laminate was established for two different temperatures, and its springback behavior was examined in four-point bend and channel bend tests. Cup forming tests were performed at various test temperatures to determine the limiting drawing ratio (LDR) and the tendency for wrinkl
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42

Khadeev, Grigorii, Dmitrii Ringinen, and Leonid Efron. "Effect of Multistage Deformation during the Pipe Processing on Mechanical Properties of Steels Strength Grade X70-X80." Key Engineering Materials 716 (October 2016): 957–62. http://dx.doi.org/10.4028/www.scientific.net/kem.716.957.

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In this research effect of the pipe forming on strength properties of rolled metal was investigated. Deformed state of metal during pipe processing was analyzed and tests with specimens from plate were performed. Analysis of the experimental data was exploited to evaluate effect of the strain on yield stress in each stage of the pipe forming and specimen flattening. The model for estimation of mechanical properties of the rolling mill product based on the required mechanical properties of the pipe was created.
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43

Maaß, Fabian, Marlon Hahn, and A. Erman Tekkaya. "Interaction of Process Parameters, Forming Mechanisms, and Residual Stresses in Single Point Incremental Forming." Metals 10, no. 5 (2020): 656. http://dx.doi.org/10.3390/met10050656.

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The residual stress state of a sheet metal component manufactured by metal forming has a significant influence on the mechanical properties, and thus determines the time until the component fails, especially for dynamic loads. The origin of the resulting residual stress state of incrementally formed parts with regard to the forming mechanisms of shearing, bending, and the normal stress component is still under investigation. The relationship between the process parameters, the forming mechanisms, and the resulting residual stress state for a complex part geometry manufactured by single point i
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44

Guarnaschelli, Claudio, P. Folgarait, Susanna Matera, and Dario Ripamonti. "Simulation of Thermo-Mechanical Controlled Rolling and Continuous Cooling of Wire Rods." Materials Science Forum 638-642 (January 2010): 3236–41. http://dx.doi.org/10.4028/www.scientific.net/msf.638-642.3236.

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In this study the effect of thermo-mechanical controlled rolling and continuous cooling of different grades of steel wire rod (e.g. high-carbon for cold drawing applications, medium-carbon micro-alloyed for cold forming) has been analysed through the application of a set of integrated mathematical models simulating hot rolling and continuous cooling, and a laboratory work involving hot rolling simulation on a pilot plant and heat treatments on a laboratory scale. The samples have been characterised by means of instrumented tensile tests, metallographic analyses including determination of pearl
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Jalaluddin, Mohamed Lokman, Umar Al-Amani Azlan, Mohd Warikh Abd Rashid, Norfauzi Tamin, Mohamad Najmi Masri, and Muchlis Muchlis. "Effect of Forming Pressure on the Microstructure and Mechanical Characteristics of Dense Porous Ceramics." Journal of Advanced Research in Micro and Nano Engineering 30, no. 1 (2025): 115–29. https://doi.org/10.37934/armne.30.1.115129.

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Ceramics are widely used in industrial applications due to their exceptional mechanical strength, thermal stability, and chemical resistance. However, the forming pressure during production significantly influences the microstructure and porosity, which in turn affect their mechanical properties. This study investigates the effects of varying forming pressures on the microstructure, porosity, and mechanical properties of dense porous ceramics, addressing the gap in understanding optimal forming conditions for enhanced performance. A composite of kaolinite clay, silica, feldspar, and carbon bla
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De Leon Rodriguez, Luis M., Yacine Hemar, Jillian Cornish та Margaret A. Brimble. "Structure–mechanical property correlations of hydrogel forming β-sheet peptides". Chemical Society Reviews 45, № 17 (2016): 4797–824. http://dx.doi.org/10.1039/c5cs00941c.

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Ko, Dae-Hoon, Jae-Hong Kim, Dae-Cheol Ko, and Byung-Min Kim. "Improvement of Weldment Properties by Hot Forming Quenching of Friction Stir Welded TWB Sheet." Advances in Mechanical Engineering 6 (January 1, 2014): 257510. http://dx.doi.org/10.1155/2014/257510.

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The purpose of this study is to improve the mechanical properties and formability of friction stir welded tailor-welded blanks (TWBs) of Al6061 alloy with a new forming method called hot forming quenching (HFQ) in which solid-solution heat-treated aluminum sheets are formed at elevated temperature. Forming and quenching during HFQ are simultaneously performed with the forming die for the solid-solution heat-treated sheet. In this study, specimens of aluminum TWBs were prepared by friction stir welding (FSW) with a butt joint. The effectiveness of FSW joining was evaluated by observation of the
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Fracz, W., F. Stachowicz, T. Trzepieciński, and T. Pieją. "Forming Limit Diagram of the AMS 5599 Sheet Metal." Archives of Metallurgy and Materials 58, no. 4 (2013): 1213–17. http://dx.doi.org/10.2478/amm-2013-0153.

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Abstract Formability of sheet metal is dependent on the mechanical properties. Some materials form better than others - moreover, a material that has the best formability for one stamping may behave very poorly in a stamping of another configuration. For these reasons, extensive test programs are often carried out in an attempt to correlate material formability with value of some mechanical properties. The formability of sheet metal has frequently been expressed by the value of strain hardening exponent and plastic anisotropy ratio. The stress-strain and hardening behaviour of a material is ve
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Siriprom, W., S. Kongsriprapan, and K. Teanchai. "Chitosan Based Film: Structural and Mechanical Properties." Advanced Materials Research 979 (June 2014): 311–14. http://dx.doi.org/10.4028/www.scientific.net/amr.979.311.

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The aims of this work to develop biodegradable films base on chitosan. The physical and chemical properties such as transparency, structural, mechanical and the intermolecular interaction were analyzed. Fourier Transform Infrared Spectroscopy (FTIR) spectroscopy show the chitosan could form homogenous film, and the XRD pattern from X-Ray Diffraction (XRD) indicated that the crystalline was suppressed after film forming process. Another that, the tensile strength, % elongation and Young’s modulus values of the films were investigated. All information was evaluated for potentiality to apply in p
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Long, Zhizhong, Liqiang Zhang, Zhili Tan, Qingding Wu, and Jin Yan. "Effect of hot-pressing process on mechanical properties and color changes of poplar powder compacts." BioResources 16, no. 3 (2021): 4934–46. http://dx.doi.org/10.15376/biores.16.3.4934-4946.

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Binderless poplar powder compacts were prepared using the hot-pressing technology. The effect of the forming process on the mechanical properties and surface color of the poplar powder compacts was studied. The effect of forming temperature on mechanical properties and surface color was more noticeable than the forming pressure and the holding time. With the change of the forming process parameters, the static bending strength of the compacts increased first and then decreased. The overall change trend of the surface hardness increased continuously. The overall color difference (ΔE*) of the co
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