M. Langa and A. Ouakka, Optimisation du ressort de suspension dans l'environnement véhicule: apports de l'outil de simulation numérique, Mécanique et Industrie, vol.2, pp.181-188, 2001.

J. Yang, E. Pitarch, K. Abdel-malek, A. Patrick, and L. Lindkvist, A multi-fingered hand-prosthesis. Mechanism and Machine Theory, pp.555-581, 2004.

K. A. Seffen, Z. You, and S. Pellegrino, Folding and deployment of curved tape springs, International Journal of Mechanical Sciences, vol.42, pp.2055-2073, 2000.

A. M. Wahl, Mechanical Springs, 1963.

J. E. Mottershead, The large displacements and dynamic stability of springs using helical finite element, International Journal of Mechanical Sciences, vol.24, pp.547-558, 1987.

L. E. Becker and W. L. Cleghorn, On the buckling of helical compression springs, International Journal of Mechanical Sciences, vol.34, pp.275-282, 1992.

L. Le, G. Ji, and Y. Lin, Stress Analysis and Optimal Cross-Sections of Noncircular Spring Wire. Springs, Official publication from the Spring Manufacturer Institute, pp.30-45, 1994.

L. E. Becker, G. G. Chassie, and W. L. Cleghorn, On the natural frequency of helical compression springs, International Journal of Mechanical Sciences, vol.44, pp.825-841, 2002.

M. Southward, Non-axial forces in compression springs, Wire, vol.53, pp.26-27, 2003.

E. Wolansky, Conical Spring Buckling Deflexion, p.62, 1996.

E. Wolansky, Lateral Loading of Conical Springs. Springs, p.95, 2001.

E. Sancaktar and M. Gratton, Design, analysis and optimization of a composite leaf spring for light vehicle applications, Composite Structures, vol.44, pp.195-204, 1999.

I. Rajendran and S. Vijayarangan, Optimal design of a composite leaf spring using genetic algorithms, Computers and structures, vol.79, pp.1121-1129, 2001.

M. M. Shokrieh and D. Rezaei, Analysis and optimisation of a composite leaf spring, Composite Structures, vol.60, pp.317-325, 2003.

S. Metwalli, A. Radwan, and A. A. Elmeligy, CAD and Optimization of helical torsion springs, Computers in Engineering, pp.767-773, 1994.

R. Deford, Iterative logic for nested compression spring design. Springs, pp.27-28, 2003.

, 3-2133 Royal Windsor Drive, PRODMOR System Inc

I. Exagon-? and . Gmbh, , vol.8, p.73230

/. Kirchheim and . Teck,

S. M. Smi and . Institute, , 2001.

, Ltd, 1 Brittens Court

R. Deford, Exploring ASD6. Springs, pp.38-40, 2004.

M. Paredes, M. Sartor, and C. Masclet, Obtaining an optimal compression spring design directly from a user specification, Proceedings of the institution of mechanical engineers, vol.216, pp.419-428, 2002.

M. Paredes, M. Sartor, and C. Masclet, An optimization process for extension spring design, Computer Methods in Applied Mechanics and Engineering, vol.191, pp.783-797, 2001.

M. Paredes, M. Sartor, and J. C. Wahl, Optimization techniques for industrial spring design, Optimization in Industry, pp.315-326, 2002.

G. N. , Vanderplats (1984) Numerical Optimization Techniques for Engineering Design

R. E. Moore, Methods and Applications of Interval Analysis, 1979.

E. Hyvonen, Constraint reasoning based on interval arithmetic: the tolerance propagation approach, Artificial Intelligence, vol.58, pp.71-112, 1992.

M. Paredes, M. Sartor, and J. C. Fauroux, Stock spring selection tool, pp.53-67, 2000.

R. C. Johnson, Optimum design of mechanical elements, 1980.

Z. Yao and A. L. Johnson, On estimating the feasible solution space of design, Computer-Aided Design, vol.29, pp.649-655, 1997.