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Here, the body attitude of an agent is modelled by a rotation matrix in $${\\mathbb {R}}^3$$<\/jats:tex-math>\n\n\nR<\/mml:mi>\n<\/mml:mrow>\n3<\/mml:mn>\n<\/mml:msup>\n<\/mml:math><\/jats:alternatives><\/jats:inline-formula> as in Degond et al. (Math Models Methods Appl Sci 27(6):1005\u20131049, 2017). The starting point of this study is a BGK equation modelling the evolution of the distribution function of the system at a kinetic level. The main novelty of this work is to show that in the spatially homogeneous case, self-organisation may appear or not depending on the local density of agents involved. We first exhibit a connection between body-orientation models and models of nematic alignment of polymers in higher-dimensional space from which we deduce the complete description of the possible equilibria. Then, thanks to a gradient-flow structure specific to this BGK model, we are able to prove the stability and the convergence towards the equilibria in the different regimes. We then derive the macroscopic models associated with the stable equilibria in the spirit of Degond et al. 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