Eric Paroissien

Enseignant-chercheur - Institut Supérieur de l'Aéronautique et de l'espace (ISAE-SUPAERO)
Membre du groupe Modélisation des Systèmes et Microsystèmes Mécaniques (MS2M)
BR1023, Espace Clément Ader, 3 rue Caroline Aigle
31400 Toulouse
Activités de recherche :

Experimental and numerical modelling of the mechanical behavior of metallic and/or composite bonded and/or bolted joints

Key words
bonding ; bolting ; macro-element ; (semi-)analytical model ; finite element model ; cohesive zone model ;

The manufacturing of mechanical systems mainly requires the assembly of several structural subcomponents. The first function of joints is to allow for the physical existence of mechanical systems. Moreover, the joints allow for the transfer of loads between the joined structural subcomponents, composing the mechanical system. The mechanical system life is then highly dependent on these joints. The assemblies are the critical point of every manufacturing industries.

My research theme consists in investigating the questions raised by joining technologies such as adhesive bonding and mechanical fastening.

Activités d'enseignement :


“Ingénieur ISAE-SUPAERO” (MSc Degree)
Beam Theory (1A/L3)
Mechanics of Structures (2A/M1)
Master of Science in Aerospace Engineering
Preliminary Design of Aircraft Structures (M1)
Introduction to Mechanics of Assemblies (M1)
Advanced Masters
Modelling of Aircraft Structures (TAS-AERO)
Introduction to Mechanics of Assemblie (AMPASS)
Spring Semester
Elements on Strength of Materials (L3)
Comportement Mécanique des Assemblages Collés

Master of Science in Aerospace Engineering
Aircraft Structures 1 (M1)
Advanced Masters
Modelling of Aircraft Structures (TAS-AERO)
Aircraft Structures (SAS, TAS-AERO)
Spring Semester
Introduction to Aircraft Structures (L3)
Assemblage par Collage Structural

“Ingénieur ISAE-SUPAERO” (MSc Degree)
Introduction aux Charges et Structures Aéronefs (3A/M2)
Projet conception (3A/M2)
Master of Science in Aerospace Engineering
Aircraft Structures 2 (M2)

Autre :

Co-créateur et contributeur de l’initiative TACCOS (Toulouse
Adhésion Cohésion. Collage Structural) lancée en 2017.
Cette initiative vise à  investiguer les problématiques adressées par la technologie
d’assemblage par collage structural en s’appuyant sur la Chimie et la
Mécanique. Le sous-titre de TACCOS est “De la Chimie à  la Mécanique“.

Cette initiative est développée au travers d’une collaboration entre
l’axe transverse “Adhérence” du CIRIMAT ( et l’axe transverse “Assemblage”
de l’ICA

Co-creator and contributor of the TACCOS inititiative (Toulouse Adhesion Cohesion. Structural Adhesive Bonding) launched in 2017.
This initiative aims at investigating the questions arisen from the structural adhesive bonding, basing on Chemisitry and Mechanics. The subtitle of TACCOS is “From Chemistry to Mechanics“.
This initiative is developped through a collaboration between the transverse axis “Adherence” at CIRIMAT
( and the transverse axis “Assembly” at ICA (

Production scientifique :
10 contributions trouvées

AnnéeTypeAuteurs et titre du documentLiens
2018ACLEric Paroissien, Lucas F.M. Da Silva, Frederic Lachaud. Simplified stress analysis of functionally graded single-lap joints subjected to combined thermal and mechanical loads. Composite Structures, Elsevier, 85 - 100, 203[HAL] / [DOI]
2018ACLE Paroissien, Frederic Lachaud, Joseph Morlier, S. Schwartz. A Direct Method for the Assessment of Cohesive Zone Models for Thin Adhesive Layers Loaded in Mode I, Mode II, and Mixed-Mode I/II. Reviews of Adhesion and Adhesives[HAL] / [DOI]
2018COMAgathe Jaillon, Julien Jumel, Frederic Lachaud, Eric Paroissien, Jordi Renart. Thickness influence on a structural methacrylate adhesive behavior. 6th World Congress on Adhesion and Related Phenomena (WCARP 2018), pp. 1-24[HAL]
2017ACLEric Paroissien, Frederic Lachaud, Sébastien Schwartz, Anthony Da Veiga, Patrick Barrière. Simplified stress analysis of hybrid (bolted/bonded) joints. International Journal of Adhesion and Adhesives, Elsevier, 183-197, 77[HAL] / [DOI]
2015ACLGuillaume Lélias, Eric Paroissien, Frederic Lachaud, Joseph Morlier, Sébastien Schwartz, Cyril Gavoille. An extended semi-analytical formulation for fast and reliable mode I/II stress analysis of adhesively bonded joints. International Journal of Solids and Structures, Elsevier, pp. 18-38, vol. 62[HAL] / [DOI]
2013ACLEric Paroissien, Fréderic Gaubert, A. Da Veiga, Frederic Lachaud. Elasto-plastic analysis of bonded joints with macro-elements. Journal of Adhesion Science and Technology, Taylor & Francis, pp. 1464-1498, vol. 27[HAL] / [DOI]
2010ACLCat-Tan Hoang-Ngoc, Eric Paroissien. Simulation of Single-Lap Bonded and Hybrid (Bolted/Bonded) Joints with Flexible Adhesive. International Journal of Adhesion and Adhesives, Elsevier, pp. 117-129, vol. 30[HAL] / [DOI]
2009COMEric Paroissien, Cat-Tan Hoang-Ngoc, Harvind Bhugaloo, David Ducher. Improving the fatigue life of aeronautical single-lap bolted joints thanks to the hybrid (bolted/bonded) joining technology. 25th ICAF Symposium, pp. 475-492[HAL]
2006PhDEric Paroissien. Contribution aux assemblages hybrides (boulonnés/collés) - Application aux jonctions aéronautiques. Contribution to hybrid (bolted/bonded) joining - Application to aeronautical joints.[HAL]
2006COMEric Paroissien, Marc Sartor, Jacques Huet, Frederic Lachaud. Hybrid (Bolted/Bonded) Joints Applied to Aeronautic Parts: Analytical Two-Dimensional Model of a Single-Lap Joint. 47th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Material Conference, pp. 1-23[HAL]