stands for Digital Object Identifier
and is the unique identifier for objects on the internet. It can be used to create persistent link and to cite articles.
Using DOI as a persistent link
To create a persistent link, add「http://dx.doi.org/」
before a DOI.
For instance, if the DOI of an article is 10.5297/ser.1201.002 , you can link persistently to the article by entering the following link in your browser: http://dx.doi.org/ 10.5297/ser.1201.002 。
The DOI link will always direct you to the most updated article page no matter how the publisher changes the document's position, avoiding errors when engaging in important research.
Cite a document with DOI
When citing references, you should also cite the DOI if the article has one. If your citation guideline does not include DOIs, you may cite the DOI link.
DOIs allow accurate citations, improve academic contents connections, and allow users to gain better experience across different platforms. Currently, there are more than 70 million DOIs registered for academic contents. If you want to understand more about DOI, please visit airiti DOI Registration （ doi.airiti.com ） 。
- Christensen, R.M. (1968). “On obtaining solutions in nonlinear viscoelasticity.” Journal of Applied Mechanics, 35, 129–133.
- Collop, A.C., Scarpas, A. T., Kasbergen, C., and de Bondt, A. (2003). “Development and finite element implementation of stress-dependent elastoviscoplastic constitutive model with damage for asphalt.” Transportation Research Record 1832, Transportation Research Board, Washington, DC, 96-104.
- Darabi MK, Abu Al-Rub RK, Masad EA, Huang CW, and Little DN. (2012) “A modified viscoplastic model to predict the permanent deformation of asphaltic materials under cyclic-compression loading at high temperatures.” Int J Plast; 35:100–34.
- Darabi MK, Abu Al-Rub RK, Masad EA, Huang CW, and Little DN. (2011) “A thermo-viscoelastic-viscoplastic-visco-damage constitutive model for asphaltic materials.” International Journal of Solids and Structures; 48:191–207.
- Haj‐Ali, R.M. and Muliana, A.H. (2004). “Numerical finite element formulation of the Schapery non‐linear viscoelastic material model.” International Journal for Numerical Methods in Engineering, 59, 25–45.
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