Rainer Gößling scite author profile

Rainer Gößling

3Publications

32Citation Statements Received

114Citation Statements Given

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Affiliations

Ruhr University Bochum

Publications

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Development of a Bioinspired Approach for the Design of Kinematic Chains

Bartz¹,

Gößling²,

Remus³

et al. 2018

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In recent years, bioinspired lightweight design has become a high priority in technology. An important source is the musculoskeletal system, which achieves a light construction by the interplay of different effects, which have the aim of minimizing bending stresses. In this paper the potentials for technology and the challenges for a transfer are discussed using kinematic chains as an example. An iterative approach is presented, which represents a solution to integrate the simultaneous optimization process of the musculoskeletal system into the technical product development process.

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The functional role of the ischiopubic membrane for the mechanical loading of the pubis in the domestic fowl (Gallus gallus)

et al. 2012

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Soft tissues other than muscles are supposed to be of mechanical importance, yet they are rarely integrated into finite element models. Here, we investigate the functional role of the ischiopubic membrane for the loading of the pubis of the domestic fowl using 2D finite element analysis. For this purpose, a specimen of the domestic fowl was dissected and soft tissues attaching to the pubis were studied in great detail. Muscles were removed and measurements taken. For the 2D finite element model, the outline was taken from the dissected specimen. Two 2D finite element models were generated: one without and one with ischiopubic membrane. The same muscular loading based on own measurements and electromyographic data was applied to both models. The model without ischiopubic membrane shows anteroventral bending deformation of the scapus pubis, resulting in high compressive and tensile principal stresses at the level of ultimate bone stress values. The model with ischiopubic membrane shows low compressive principal stresses in the pubis consistent with the levels of steady state remodelling of bone. Based on these results, the ischiopubic membrane of the domestic fowl potentially establishes a physiological loading of the pubis and therefore might be of great mechanical significance for the loading of the bone.

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The gastralial apparatus of Plateosaurus engelhardti: morphological description and soft-tissue reconstructio

Fechner

Gößling

2014

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The fragmentary nature of the fossil record of the gastralial apparatus of sauropodomorph dinosaurs has considerable impact on our understanding its functional morphology and evolution in this group. With the aim of increasing our knowledge on the functional morphology of the gastralial apparatus of sauropodomorph dinosaurs, remains of the gastralial apparatus of Plateosaurus engelhardti are described. Soft-tissues and their function are reconstructed applying the Extant Phylogenetic Bracket, in this instance comprising crocodiles and birds. The gastralial apparatus of Plateosaurus consists of at least 18 gastralial rows. With exception of the 1 st row, which has a chevron-shaped medial and two lateral gastralia, the gastralial rows consist of two medial and two lateral gastralia. The lateral gastralia are 2.2-2.8 times longer than the associated medial gastralia. The proximal ends of the medial gastralia overlap in a latticelike arrangement, forming a mid-ventral imbricating articulation. Characteristic for Plateosaurus is the sigmoid form of the medial and lateral gastralia, the increasing angle of the gastralial rows from proximal to distal, as well as the increasing robustness of the gastralia rows from proximal to distal. According to the Extant Phylogenetic Bracket, the gastralial apparatus of Plateosaurus is embedded into M. rectus abdominis, which attaches to the caudal aspect of the sternum and indirectly to the distal end of the pubis. As in extant archosaurs, m. rectus abdominis is closely related to the other muscles of the hypaxial abdominal muscle group. The muscles of the hypaxial abdominal muscle group are active during ventilation and locomotion, which suggests that the functions of the gastralial apparatus of Plateosaurus may be more complex than previously suggested.

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