Aktas, BusraDurmaz, OlgunAydin, Oeznur2025-01-212025-01-2120240219-88781793-6977https://doi.org/10.1142/S0219887824502773https://hdl.handle.net/20.500.12587/25197The objective of this paper is to explore the unexplored algebraic representations of the constraint manifolds associated with 4C and 6C spatial closed chains in Lorentzian space. Initially, we establish the structure equations of spatial closed chains by utilizing the structure equations for spatial open chains in Lorentzian space. Subsequently, we employ these structure equations to derive the algebraic expressions defining the constraint manifolds of 4C and 6C spatial closed chains in Lorentzian space, considering factors such as the causal character of the first link and the rotational axis of the cylindrical joint. This study will finalize all algebraic representations of constraint manifolds for spacelike and timelike mechanisms in Lorentzian space.eninfo:eu-repo/semantics/closedAccessStructure equation; constraint manifold; open and closed chains; split quaternion; image spaceArticle10.1142/S02198878245027732-s2.0-85202149665Q2WOS:001306483100001N/A