adams software Search Results


rigid body osseous and cartilage knee model adams 2017.2  (MSC Software Corporation)
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MSC Software Corporation rigid body osseous and cartilage knee model adams 2017.2
Rigid Body Osseous And Cartilage Knee Model Adams 2017.2, supplied by MSC Software Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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rigid body dynamics adams  (MSC Software Corporation)
90
MSC Software Corporation rigid body dynamics adams
Rigid Body Dynamics Adams, supplied by MSC Software Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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adams software adams 2020  (Mechanical Dynamics Inc)
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Mechanical Dynamics Inc adams software adams 2020
Adams Software Adams 2020, supplied by Mechanical Dynamics Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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software solution adam  (FUJINON INC)
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FUJINON INC software solution adam
Software Solution Adam, supplied by FUJINON INC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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multibody software md adams  (MSC Software Corporation)
90
MSC Software Corporation multibody software md adams
Workflow used to build a simplified equine carpus model ( A – E ). The radial carpal bone (Cr) was fractured into two main pieces ( A ). The fractured volumes of the Cr were segmented ( B ). The Cr was virtually reconstructed by aligning the bone fragments and applying a wrapping function to reproduce the non-fractured bone surface ( C ). All the articulating bones of the carpal joint were segmented, and the respective three-dimensional (3D) solid geometries were created using software for 3D image processing. The 3D model was imported in <t>multibody</t> software and the gravity, and the weight forces were introduced ( D ). The collateral ligaments and the dorsal retinaculum were modelled ( E ). The short and long medial collateral ligaments (s-MCL and l-MCL), and the short and long lateral collateral ligaments (s-LCL and l-LCL) were introduced in the model. The short and long medial retinaculum (s-MR and l-MR) blended with the dorsal joint capsule and fascia were modelled. The intercarpal ligaments were modelled as bushing elements, acting between two bones proportionally to their relative linear and angular displacements and velocities.
Multibody Software Md Adams, supplied by MSC Software Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/multibody software md adams/product/MSC Software Corporation
Average 90 stars, based on 1 article reviews
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adams software  (MSC Software Corporation)
90
MSC Software Corporation adams software
Workflow used to build a simplified equine carpus model ( A – E ). The radial carpal bone (Cr) was fractured into two main pieces ( A ). The fractured volumes of the Cr were segmented ( B ). The Cr was virtually reconstructed by aligning the bone fragments and applying a wrapping function to reproduce the non-fractured bone surface ( C ). All the articulating bones of the carpal joint were segmented, and the respective three-dimensional (3D) solid geometries were created using software for 3D image processing. The 3D model was imported in <t>multibody</t> software and the gravity, and the weight forces were introduced ( D ). The collateral ligaments and the dorsal retinaculum were modelled ( E ). The short and long medial collateral ligaments (s-MCL and l-MCL), and the short and long lateral collateral ligaments (s-LCL and l-LCL) were introduced in the model. The short and long medial retinaculum (s-MR and l-MR) blended with the dorsal joint capsule and fascia were modelled. The intercarpal ligaments were modelled as bushing elements, acting between two bones proportionally to their relative linear and angular displacements and velocities.
Adams Software, supplied by MSC Software Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/adams software/product/MSC Software Corporation
Average 90 stars, based on 1 article reviews
adams software - by Bioz Stars, 2026-03
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adams® multidynamic software  (MSC Software Corporation)
90
MSC Software Corporation adams® multidynamic software
Workflow used to build a simplified equine carpus model ( A – E ). The radial carpal bone (Cr) was fractured into two main pieces ( A ). The fractured volumes of the Cr were segmented ( B ). The Cr was virtually reconstructed by aligning the bone fragments and applying a wrapping function to reproduce the non-fractured bone surface ( C ). All the articulating bones of the carpal joint were segmented, and the respective three-dimensional (3D) solid geometries were created using software for 3D image processing. The 3D model was imported in <t>multibody</t> software and the gravity, and the weight forces were introduced ( D ). The collateral ligaments and the dorsal retinaculum were modelled ( E ). The short and long medial collateral ligaments (s-MCL and l-MCL), and the short and long lateral collateral ligaments (s-LCL and l-LCL) were introduced in the model. The short and long medial retinaculum (s-MR and l-MR) blended with the dorsal joint capsule and fascia were modelled. The intercarpal ligaments were modelled as bushing elements, acting between two bones proportionally to their relative linear and angular displacements and velocities.
Adams® Multidynamic Software, supplied by MSC Software Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/adams® multidynamic software/product/MSC Software Corporation
Average 90 stars, based on 1 article reviews
adams® multidynamic software - by Bioz Stars, 2026-03
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du software  (Adam Equipment)
90
Adam Equipment du software
Workflow used to build a simplified equine carpus model ( A – E ). The radial carpal bone (Cr) was fractured into two main pieces ( A ). The fractured volumes of the Cr were segmented ( B ). The Cr was virtually reconstructed by aligning the bone fragments and applying a wrapping function to reproduce the non-fractured bone surface ( C ). All the articulating bones of the carpal joint were segmented, and the respective three-dimensional (3D) solid geometries were created using software for 3D image processing. The 3D model was imported in <t>multibody</t> software and the gravity, and the weight forces were introduced ( D ). The collateral ligaments and the dorsal retinaculum were modelled ( E ). The short and long medial collateral ligaments (s-MCL and l-MCL), and the short and long lateral collateral ligaments (s-LCL and l-LCL) were introduced in the model. The short and long medial retinaculum (s-MR and l-MR) blended with the dorsal joint capsule and fascia were modelled. The intercarpal ligaments were modelled as bushing elements, acting between two bones proportionally to their relative linear and angular displacements and velocities.
Du Software, supplied by Adam Equipment, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/du software/product/Adam Equipment
Average 90 stars, based on 1 article reviews
du software - by Bioz Stars, 2026-03
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msc.adams  (MSC Software Corporation)
90
MSC Software Corporation msc.adams
Workflow used to build a simplified equine carpus model ( A – E ). The radial carpal bone (Cr) was fractured into two main pieces ( A ). The fractured volumes of the Cr were segmented ( B ). The Cr was virtually reconstructed by aligning the bone fragments and applying a wrapping function to reproduce the non-fractured bone surface ( C ). All the articulating bones of the carpal joint were segmented, and the respective three-dimensional (3D) solid geometries were created using software for 3D image processing. The 3D model was imported in <t>multibody</t> software and the gravity, and the weight forces were introduced ( D ). The collateral ligaments and the dorsal retinaculum were modelled ( E ). The short and long medial collateral ligaments (s-MCL and l-MCL), and the short and long lateral collateral ligaments (s-LCL and l-LCL) were introduced in the model. The short and long medial retinaculum (s-MR and l-MR) blended with the dorsal joint capsule and fascia were modelled. The intercarpal ligaments were modelled as bushing elements, acting between two bones proportionally to their relative linear and angular displacements and velocities.
Msc.Adams, supplied by MSC Software Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/msc.adams/product/MSC Software Corporation
Average 90 stars, based on 1 article reviews
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adams model  (MSC Software Corporation)
90
MSC Software Corporation adams model
Workflow used to build a simplified equine carpus model ( A – E ). The radial carpal bone (Cr) was fractured into two main pieces ( A ). The fractured volumes of the Cr were segmented ( B ). The Cr was virtually reconstructed by aligning the bone fragments and applying a wrapping function to reproduce the non-fractured bone surface ( C ). All the articulating bones of the carpal joint were segmented, and the respective three-dimensional (3D) solid geometries were created using software for 3D image processing. The 3D model was imported in <t>multibody</t> software and the gravity, and the weight forces were introduced ( D ). The collateral ligaments and the dorsal retinaculum were modelled ( E ). The short and long medial collateral ligaments (s-MCL and l-MCL), and the short and long lateral collateral ligaments (s-LCL and l-LCL) were introduced in the model. The short and long medial retinaculum (s-MR and l-MR) blended with the dorsal joint capsule and fascia were modelled. The intercarpal ligaments were modelled as bushing elements, acting between two bones proportionally to their relative linear and angular displacements and velocities.
Adams Model, supplied by MSC Software Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/adams model/product/MSC Software Corporation
Average 90 stars, based on 1 article reviews
adams model - by Bioz Stars, 2026-03
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software adams  (Mechanical Dynamics Inc)
90
Mechanical Dynamics Inc software adams
Workflow used to build a simplified equine carpus model ( A – E ). The radial carpal bone (Cr) was fractured into two main pieces ( A ). The fractured volumes of the Cr were segmented ( B ). The Cr was virtually reconstructed by aligning the bone fragments and applying a wrapping function to reproduce the non-fractured bone surface ( C ). All the articulating bones of the carpal joint were segmented, and the respective three-dimensional (3D) solid geometries were created using software for 3D image processing. The 3D model was imported in <t>multibody</t> software and the gravity, and the weight forces were introduced ( D ). The collateral ligaments and the dorsal retinaculum were modelled ( E ). The short and long medial collateral ligaments (s-MCL and l-MCL), and the short and long lateral collateral ligaments (s-LCL and l-LCL) were introduced in the model. The short and long medial retinaculum (s-MR and l-MR) blended with the dorsal joint capsule and fascia were modelled. The intercarpal ligaments were modelled as bushing elements, acting between two bones proportionally to their relative linear and angular displacements and velocities.
Software Adams, supplied by Mechanical Dynamics Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/software adams/product/Mechanical Dynamics Inc
Average 90 stars, based on 1 article reviews
software adams - by Bioz Stars, 2026-03
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md.adams  (MSC Software Corporation)
90
MSC Software Corporation md.adams
Workflow used to build a simplified equine carpus model ( A – E ). The radial carpal bone (Cr) was fractured into two main pieces ( A ). The fractured volumes of the Cr were segmented ( B ). The Cr was virtually reconstructed by aligning the bone fragments and applying a wrapping function to reproduce the non-fractured bone surface ( C ). All the articulating bones of the carpal joint were segmented, and the respective three-dimensional (3D) solid geometries were created using software for 3D image processing. The 3D model was imported in <t>multibody</t> software and the gravity, and the weight forces were introduced ( D ). The collateral ligaments and the dorsal retinaculum were modelled ( E ). The short and long medial collateral ligaments (s-MCL and l-MCL), and the short and long lateral collateral ligaments (s-LCL and l-LCL) were introduced in the model. The short and long medial retinaculum (s-MR and l-MR) blended with the dorsal joint capsule and fascia were modelled. The intercarpal ligaments were modelled as bushing elements, acting between two bones proportionally to their relative linear and angular displacements and velocities.
Md.Adams, supplied by MSC Software Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/md.adams/product/MSC Software Corporation
Average 90 stars, based on 1 article reviews
md.adams - by Bioz Stars, 2026-03
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Image Search Results


Workflow used to build a simplified equine carpus model ( A – E ). The radial carpal bone (Cr) was fractured into two main pieces ( A ). The fractured volumes of the Cr were segmented ( B ). The Cr was virtually reconstructed by aligning the bone fragments and applying a wrapping function to reproduce the non-fractured bone surface ( C ). All the articulating bones of the carpal joint were segmented, and the respective three-dimensional (3D) solid geometries were created using software for 3D image processing. The 3D model was imported in multibody software and the gravity, and the weight forces were introduced ( D ). The collateral ligaments and the dorsal retinaculum were modelled ( E ). The short and long medial collateral ligaments (s-MCL and l-MCL), and the short and long lateral collateral ligaments (s-LCL and l-LCL) were introduced in the model. The short and long medial retinaculum (s-MR and l-MR) blended with the dorsal joint capsule and fascia were modelled. The intercarpal ligaments were modelled as bushing elements, acting between two bones proportionally to their relative linear and angular displacements and velocities.

Journal: Animals : an Open Access Journal from MDPI

Article Title: Multibody Computer Model of the Entire Equine Forelimb Simulates Forces Causing Catastrophic Fractures of the Carpus during a Traditional Race

doi: 10.3390/ani12060737

Figure Lengend Snippet: Workflow used to build a simplified equine carpus model ( A – E ). The radial carpal bone (Cr) was fractured into two main pieces ( A ). The fractured volumes of the Cr were segmented ( B ). The Cr was virtually reconstructed by aligning the bone fragments and applying a wrapping function to reproduce the non-fractured bone surface ( C ). All the articulating bones of the carpal joint were segmented, and the respective three-dimensional (3D) solid geometries were created using software for 3D image processing. The 3D model was imported in multibody software and the gravity, and the weight forces were introduced ( D ). The collateral ligaments and the dorsal retinaculum were modelled ( E ). The short and long medial collateral ligaments (s-MCL and l-MCL), and the short and long lateral collateral ligaments (s-LCL and l-LCL) were introduced in the model. The short and long medial retinaculum (s-MR and l-MR) blended with the dorsal joint capsule and fascia were modelled. The intercarpal ligaments were modelled as bushing elements, acting between two bones proportionally to their relative linear and angular displacements and velocities.

Article Snippet: Thus, the obtained 3D geometries were imported into multibody software (v.2017, MD Adams, MSC Software Corporation GmbH, Munich, Germany), where a dynamic model was implemented.

Techniques: Software