DaRUS

Metrics

3,772,174 Downloads

Featured Dataverses

In order to use this feature you must have at least one published or linked dataverse.

Publish Dataverse

Are you sure you want to publish your dataverse? Once you do so it must remain published.

Publish Dataverse

This dataverse cannot be published because the dataverse it is in has not been published.

Delete Dataverse

Are you sure you want to delete your dataverse? You cannot undelete this dataverse.

Publication Year: 2021

45,791 to 45,800 of 45,853 Results

M_config_B-2.tab Feb 17, 2021 - Experimental data for: A finger-joint based edge connection for the weak direction of CLT plates Tabular Data - 165.7 KB - 41 Variables, 248 Observations - UNF:6:beQOVqXj1uSGDFvpnF8hBQ== Pure moment configuration, connection B, second loading cycle. Force units: [kN]; Displacements: [mm]; Strains: [--]. The force given corresponds to a single loading piston.
M_config_B-3.tab Feb 17, 2021 - Experimental data for: A finger-joint based edge connection for the weak direction of CLT plates Tabular Data - 171.0 KB - 41 Variables, 255 Observations - UNF:6:buLSj1JpSibr6DZ3WLRaPg== Pure moment configuration, connection B, third loading cycle. Force units: [kN]; Displacements: [mm]; Strains: [--]. The force given corresponds to a single loading piston.
PN 3-1(Universität Stuttgart) Feb 15, 2021PN 3 Processing Uncertain Microstructural Data: The projects objective is to relate image-based data of stochastic microstructures to their quantities of interest. The data consists mainly of microstructure images, corresponding material properties and features deployed in machine learning.
c18.gro Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions' Unknown - 1.1 KB - MD5: b00f8e6a7ca08d1a7bb878e7638ef2e9 C18 chain structure in gro format placed on the RPLC mesopore model.
catabm.gro Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions' Unknown - 3.4 KB - MD5: 57041007e0631df1bfa5f4935a999f4f Ruthenium catalyst structure in gro format placed on the catalytic mesopore model.
cata.ipynb Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions' Jupyter Notebook - 21.5 KB - MD5: ec45e060abb9eb3b078f12c7480b6230 Jupyter Notebook for generating a cylindrical catalytic mesopore model.
fig_1.pdf Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions' Adobe PDF - 715.3 KB - MD5: 2b4b32e0ad2e18f372e22ded52a91103 Building block of beta-cristobalite viewed (a) from the xy-plane, (b) from the zy-plane and (c) from the xz-plane. Si and O atoms are coloured yellow and red, respectively.
fig_2.pdf Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions' Adobe PDF - 5.6 MB - MD5: 890845cf1575b43ebe24493871f14f29 Cylindrical RPLC mesopore model generated with PoreMS. (a) Side view of the simulation box indicating the length of the central silica block and the solvent reservoirs. (b) and (c) Front and side view, respectively, of the pierced silica block containing the 9nm diameter pore. The chemistry of the exterior surface is based on the (111) face of bet...
fig_3.pdf Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions' Adobe PDF - 19.0 KB - MD5: e28d19ca7402a3cab68e5ccce83b8c34 Functionalization at the interior (a,b) and exterior surface (c) of the generated cylindrical silica pore model for heterogeneous catalysis. (a) Ruthenium catalyst, (b) dimethoxydimethylsilyl (DMDMS) group, (c) trimethylsilyl (TMS) group.
fig_4.pdf Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions' Adobe PDF - 6.6 MB - MD5: 3d112c57076bb317a0d537c3f4b73dc4 Cylindrical catalytic mesopore model generated with PoreMS. (a) Side view of the simulation box indicating the length of the central silica block and the solvent reservoirs. (b) and (c) Front and side view, respectively, of the pierced silica block containing the 4.8nm pore. The chemistry of the exterior surface is based on the (111) face of beta-...

M_config_B-2.tab

Feb 17, 2021 - Experimental data for: A finger-joint based edge connection for the weak direction of CLT plates

Tabular Data - 165.7 KB - 41 Variables, 248 Observations -

Pure moment configuration, connection B, second loading cycle. Force units: [kN]; Displacements: [mm]; Strains: [--]. The force given corresponds to a single loading piston.

M_config_B-3.tab

Feb 17, 2021 - Experimental data for: A finger-joint based edge connection for the weak direction of CLT plates

Tabular Data - 171.0 KB - 41 Variables, 255 Observations -

Pure moment configuration, connection B, third loading cycle. Force units: [kN]; Displacements: [mm]; Strains: [--]. The force given corresponds to a single loading piston.

PN 3-1(Universität Stuttgart)

Feb 15, 2021PN 3

Processing Uncertain Microstructural Data: The projects objective is to relate image-based data of stochastic microstructures to their quantities of interest. The data consists mainly of microstructure images, corresponding material properties and features deployed in machine learning.

c18.gro

Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'

Unknown - 1.1 KB -

C18 chain structure in gro format placed on the RPLC mesopore model.

catabm.gro

Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'

Unknown - 3.4 KB -

Ruthenium catalyst structure in gro format placed on the catalytic mesopore model.

cata.ipynb

Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'

Jupyter Notebook - 21.5 KB -

Jupyter Notebook for generating a cylindrical catalytic mesopore model.

fig_1.pdf

Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'

Adobe PDF - 715.3 KB -

Building block of beta-cristobalite viewed (a) from the xy-plane, (b) from the zy-plane and (c) from the xz-plane. Si and O atoms are coloured yellow and red, respectively.

fig_2.pdf

Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'

Adobe PDF - 5.6 MB -

Cylindrical RPLC mesopore model generated with PoreMS. (a) Side view of the simulation box indicating the length of the central silica block and the solvent reservoirs. (b) and (c) Front and side view, respectively, of the pierced silica block containing the 9nm diameter pore. The chemistry of the exterior surface is based on the (111) face of bet...

fig_3.pdf

Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'

Adobe PDF - 19.0 KB -

Functionalization at the interior (a,b) and exterior surface (c) of the generated cylindrical silica pore model for heterogeneous catalysis. (a) Ruthenium catalyst, (b) dimethoxydimethylsilyl (DMDMS) group, (c) trimethylsilyl (TMS) group.

fig_4.pdf

Feb 10, 2021 - Supplementary material for 'PoreMS: A software tool for generating silica pore models with user-defined surface functionalisation and pore dimensions'

Adobe PDF - 6.6 MB -

Cylindrical catalytic mesopore model generated with PoreMS. (a) Side view of the simulation box indicating the length of the central silica block and the solvent reservoirs. (b) and (c) Front and side view, respectively, of the pierced silica block containing the 4.8nm pore. The chemistry of the exterior surface is based on the (111) face of beta-...

Add Data

Share Dataverse

Link Dataverse

Reset Modifications