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2012 | 12 | 4 |
Tytuł artykułu

Passive safety features of parts produced by rapid prototyping technologies

Treść / Zawartość
Warianty tytułu
RU
Svojjstva passivnojj bezopasnosti detalejj, izgotovlennykh tekhnologijami bystrogo prototipovanija
Języki publikacji
EN
Abstrakty
EN
The article presents a new tool for modeling parts produced by rapid prototyping (RP) technologies that has great potential for building structures with programmable properties, especially for items related to the energy dissipation during deformation. Using a wide variety of building materials and controllable part growing is the most important benefit for industry implementation of RP technology. Mass deployment is also hampered by the high price of equipment and materials for the technology.
RU
В статье рассмотрен новый инструмент для моделирования деталей, произведенных с использованием технологий быстрого прототипирования, которые имеют большой потенциал для создания конструкций с программируемыми свойствами, особенно для элементов, связанных с диссипацией энергии при деформации. Возможность использования большого разнообразия материалов и управляемой схемы выращивания деталей является наибольшим преимуществом данной технологии, в то время как массовому внедрению технологий в промышленность препятствует высокая цена на оборудование и материалы.
Wydawca
-
Rocznik
Tom
12
Numer
4
Opis fizyczny
p.49-53,fig.,ref.
Twórcy
autor
  • Sevastopol National Technical University, Sevastopol, Ukraine
autor
Bibliografia
  • 1. Jacobs P.F., 1995.: Stereolithography and other RP&M technologies. Deadborn, MI: Society of Manufacturing Engineers. - 451 p.
  • 2. Abe F., Osakada K., Shiomi M., 2001.: The manufacturing of hard tools from metallic powders by selective laser melting, J. Mater. Process. Technol. – V. 111., № 1 – 3. – Pp. 210.
  • 3. Too M.H., Leong K.F., Chua C.K., Du Z.H., Yang S.F., Cheah C.M. and S.L. Ho, 2002.: Investigation of 3D Non-Random Porous Structures by Fused Deposition Modelling // Int. J. Adv. Manuf. Technol. - Volume 19, Issue 3. – Pp. 217 – 223.
  • 4. Fazil O., Sonmez, H., Thomas Hahn, 1998.: Thermomechanical analysis of the laminated object manufacturing (LOM) process, Rapid Prototyping Journal. - Vol. 4. Iss. 1. - Pp. 26 – 36.
  • 5. Sachs E., Cima M., Cornie J., 1990.: Three- Dimensional Printing: Rapid Tooling and Prototypes Directly from a CAD Model, CIRP Annals - Manufacturing Technology. – Vol. 39, Iss. 1. – Pp. 201 – 204.
  • 6. Luqi R., Steigerwald G., Hughes V., Berzin A., 1991.: CAPS as a Requirements Engineering Tool. Proc. Conference on TRI-Ada, San Jose, CA, pp. 75 – 83.
  • 7. Herranz A, Moreno-Navarro J., 2003.: Rapid Prototyping and Incremental Evolution Using SLAM, Proc. 14th IEEE International Workshop on Rapid Systems Prototyping, San Diego, pp. 201 - 209.
  • 8. Gil A., Kowalski P., Wańczyk K., 2011.: Reducing Energy Consumption During Manufacture Of Semi- Finished Components Of The Planetary Gear Through The Use Of Castings Made By Rapid Prototyping, TEKA Kom. Mot. i Energ. Roln. - Vol. XIC. Pp. 53 – 63.
  • 9. Pysz S., Karwiski A., Czekaj E., 2009.: An analysis and comparision of properties of Al-Si alloyautomotivecastings made by rapid prototyping and standard lot producton. TEKA Kom. Mot. i Energ. Roln., Vol. IX, Pp. 251 - 258.
  • 10. http://www.axure.com/products.aspx
  • 11. Rodrigues J.F., Thomas J.P. and Renaud J.E.,2001.: Mechanical behaviour of acrylonitrile butadiene styrene (ABS) fused deposition materials. Experimental investigation, Rapid Prototyping Journal.Vol.7 No.3. Pp.148 - 158.
  • 12. Ahn S.H. Montero M., Odell, 2002.: D.Anisotropic material properties of fused deposition modeling ABS, Rapid Prototyping Journal. Vol. 8 No. 4. Pp. 248 – 257.
  • 13. Gibson I. Shi D., 1997.: Material properties and fabrication parameters in selective laser sintering process, Rapid Prototyping Journal. Vol. 3, No. 4. Pp.129 - 136.
  • 14. Dai K. X-X. Li L.L., Shaw, 2004.: Comparisons between thermal modeling and experiments: effects of ubstrate preheating, Rapid Prototyping Journal. Vol. 10, № 1. Pp. 24 – 34.
  • 15. Sung-Hoon Ahn, Caroline S. Lee, Woobyok Jeong, 2004.: Development of translucent FDM parts by postprocessing, Rapid Prototyping Journal. Vol. 10, № 4.Pp. 218 – 224.
  • 16. John Kietzman, Byong-Ho Park, Friedrich Prinz, 2001.: Part strength improvement in polymer shape deposition manufacturing, Rapid Prototyping Journal. Vol. 7, № 3. Pp. 130 – 137.
  • 17. Hong Wenbin, Lee Yong Tsui, Gong Haiqing, 2005.: A study of the staircase effect induced by material hrinkage in rapid prototyping, Rapid Prototyping Journal. Vol. 11, № 2. – Pp. 82 – 89.
  • 18. Frances D Bryant, Guanghua Sui, Ming C Leu, 2003.: A study on effects of process parameters in rapid freeze prototyping, Rapid Prototyping Journal. Vol. 9, № 1. Pp. 19 – 23.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
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