15 datasets for Journal of the Mechanical Behavior of Biomedical Materials
Data for: Comparison of water, hydroxyproline, uronic acid and elastin contents of bovine knee ligaments and patellar tendon and their relationships with biomechanical properties
Contributors: Aapo Ristaniemi, Jari Torniainen, Lauri Stenroth, Mikko Finnilä, Tommi Paakkonen, Rami Korhonen, Juha Töyräs
... Biochemical contents and biomechanical properties of bovine knee joint ligament and patellar tendon samples.
Contributors: Spyros Masouros, Thuy-Tien Nguyen, Jonathan Clasper, Daniel Stinner, Arul Ramasamy, Johno Breeze, William Proud, Diagarajen Carpanen, Iain Rankin
... Demographic, injury, and statistical data
Contributors: Satish Panda, Martin Buist
... This is C++ code to generate the results of the paper "A viscoelastic framework for inflation testing of gastrointestinal tissue".
Data for: MEASUREMENT OF APPARENT MECHANICAL PROPERTIES OF TRABECULAR BONE TISSUE: ACCURACY AND LIMITATION OF DIGITAL IMAGE CORRELATION TECHNIQUE
Contributors: Massimiliano Baleani, Luigi Falco, Alice Acciaioli
... Two datasets, contained in this websites, are collected on specimen No 10: > a dataset collected from DIC system - file series named using the following pattern: Acciaioli_Spec_No_10_1st_series_DIC_"ORD"_repetition_Gen_"SIDE"_Stage_"N".txt where -ORD is the ordinal number for the repetition. It varies from the 1st to the 8th; -SIDE is the target generatrix of the two cameras. It can take the value 0 or 180; -N is load stage number. It varies from 0 (undeformed reference stage) to 6 or 7 (final deformation stage). > a dataset collected from two extensometers - file series named using the following pattern: Acciaioli_Spec_No_10_2nd_series_EXT_"ORD"_repetition_data.csv where -ORD is the ordinal number for the repetition. It varies from the 1st to the 8th. DIC raw data are arranged in columns, starting from the 6th row. Each row refers to a subset. There are six values in each row. The first three values are the x, y and z coordinates of the subset in the undeformed reference stage (stage 0), whereas, the last three x’, y’ and z’ coordinates are in the current load stage (stage N). The load values of the undeformed reference stage and current stage are reported in the 2nd and 3rd cell of load (third) line, respectively. Additionally, the file: Acciaioli_Coordinate_reference_system_for_DIC_data.jpg shows the coordinate reference system used, in which two nominal levels represents the knife edges of the extensometer attached to the specimen surface. The virtual extensometer was created between these two levels. Therefore, the current vertical positions of upper and lower knife edge was calculated for each stage, as well as the distance between the two arms of the virtual extensometer. These three values are reported in the 5th, 6th and 7th cell of third line of each file named using the following pattern: Acciaioli_Spec_No_10_1st_series_DIC_"ORD"_repetition_Gen_"SIDE"_Stage_"N"_processed_data.txt Load level values and the distance between the two arms of the virtual extensometer are reported in the self-explanatory file: Acciaioli_Spec_No_10_1st_series_DIC_data_processing.xls where we described the sequence of operations performed to calculate EappDIC values. Moving to the extensometer technique (.csv files), strain values measured by two extensometers are coupled with stress values. Indeed, there are three values in each row. The first value is the stress value in MPa. The second and third values are collected on two opposite generatrices (0-180° or 90-270°) simultaneously. Stress and strain values were reported in the self-explanatory file: Acciaioli_Spec_No_10_2nd_series_EXT_data_processing.xls where the sequence of operations performed, was described to calculate EappEXT values. Final note: all these files were created for explanatory purposes. Two Matlab codes have been created to calculate EappDIC and EappEXT values by automatic processing of experimental data.
Data for: Mechanical Characterization of the Lateral Collateral Ligament Complex of the Ankle at Realistic Sprain-like Strain Rates
Contributors: David Rochelle, Claire Brockett, Anthony Herbert, Graham Chapman, Anthony Redmond, Ioannis Ktistakis
... The file titled "Data. Mechanical Characterization of the Lateral Collateral Ligament Complex of the Ankle at Realistic Sprain-like Strain Rates" contains the anthropometric data for the donors, ligament lengths, ultimate failure loads and stiffness' (k1) for each ligament of each donor. The raw date for the load and displacement can be found in the "Sample" files for each ligament of each donor.
Contributors: Corinne Henak, Guebum Han, Melih Eriten
... Data file includes average and standard deviation of pull-off force, pull-off time and pull-off displacement as a function of unloading rate.
Data for: A Poro-Hyper-Viscoelastic Rate-Dependent Constitutive Modeling for the Analysis of Brain Tissues
Contributors: Ghodrat Karami, Jayse McLean, Mariusz Ziejewski, Mohammadreza Ramzanpour, Mohammad Hosseini Farid
Data for: Biaxial Mechanics of 3D Fiber Deposited Ply-Laminate Scaffolds for Soft Tissue Engineering Part II: Finite Element Analyses
Contributors: Christian Puttlitz, Mitchell Page
... Data for: Biaxial Mechanics of 3D Fiber Deposited Ply-Laminate Scaffolds for Soft Tissue Engineering Part II: Finite Element Analyses
Data for: Development of a shear-thinning biomaterial as an endovascular embolic agent for the treatment of type B aortic dissection
Contributors: Barry Doyle, Matthew Moore
... Data for all experiments performed in Moore et al.
Data for: Biaxial Mechanics of 3D Fiber Deposited Ply-Laminate Scaffolds for Soft Tissue Engineering Part I: Experimental Evaluation
Contributors: Christian Puttlitz, Naveen Mekhileri, Tim B.F. Woodfield, Mitchell Page, Kenzie Baer, Ben Schon
... Data for: Biaxial Mechanics of 3D Fiber Deposited Ply-Laminate Scaffolds for Soft Tissue Engineering Part I: Experimental Evaluation