1.
The mechanical behaviour and failure modes of volcanic rocks: a review
by Heap, Michael J
Bulletin of volcanology, 2021, Vol.83 (5), p.33
2.
An assessment of the effect of printing orientation, density, and filler pattern on the compressive performance of 3D printed ABS structures by fuse deposition
by Domínguez-Rodríguez, G
International journal of advanced manufacturing technology, 2017, Vol.95 (5-8), p.1685-1695
3.
Monitoring biocalcification potential of Lysinibacillus sp. isolated from alluvial soils for improved compressive strength of concrete
by Vashisht, Rajneesh
Microbiological research, 2018, Vol.207, p.226-231
4.
The influence of water on the strength of Neapolitan Yellow Tuff, the most widely used building stone in Naples (Italy)
by Heap, Michael J
Bulletin of volcanology, 2018, Vol.80 (6), p.1
5.
Evaluation of Sample Preparation Parameters in the Compressive Strength of Cementitious Composites
by Oliveira Sena, Natalia
Materials Science Forum, 2016, Vol.869, p.93-97
6.
Experimental correlation between varying processing parameter and compressive strength of polymer-modified cement mortar composites
by Odera, R. S
International journal of advanced manufacturing technology, 2018, Vol.98 (9-12), p.2591-2599
7.
Micro-computed tomography assisted distal femur metaphyseal blunt punch compression for determining trabecular bone strength in mice
by Sankar, Uma
Journal of biomechanics, 2016, Vol.49 (7), p.1233-1237
8.
Impact and Compressive Strength Experiment of Carbon Fiber Composites Prosthetic Foot
by WANG, Shuangqing
Ji xie gong cheng xue bao, 2016, Vol.52 (22), p.55-60
9.
Experimental Study on the Performance of Compound Improved HLLS (High Liquid Limit Soil) with Various Curing Agents
by Gong, Fang Ze
Key engineering materials, 2017, Vol.753, p.300-304
10.
Effect of Alkaline Solution to Fly Ash Ratio on Geopolymer Mortar Properties
by Al Bakri, A.M. Mustafa
Key Engineering Materials, 2017, Vol.733, p.85-88
11.
Compressive Strength Analysis of Ionic Soil Stabilizer Improving Soil
by Qiu, Xin
Key engineering materials, 2015, Vol.667, p.341-346
12.
Improvement of Compressive Strength of Soil by Using Jute Fiber Waste
by Islam, Md. Bayezid
Key engineering materials, 2017, Vol.751, p.785-789
13.
Local bone formation due to combined mechanical loading and intermittent hPTH-(1-34) treatment and its correlation to mechanical signal distributions
by Roberts, M.D
Journal of biomechanics, 2009, Vol.42 (15), p.2431-2438
14.
Thermal shock cycling effect on the compressive behaviour of human teeth
by Papanicolaou, G.C
Journal of biomechanics, 2015, Vol.48 (4), p.681-686
15.
Laboratory Investigation on the Strength Characteristics of Cement-Treated Base
by Al-Mansob, Ramez A
Applied Mechanics and Materials, 2014, Vol.507 (Sustainable Development of Urban and Rural Areas), p.353-360
16.
Influence of Sample Thickness and Capping on Characterization of Bedding Mortars from Historic Masonries by Double Punch Test (DPT)
by sassoni, enrico
Key engineering materials, 2014, Vol.624, p.322-329
17.
Evaluation of Bond Strength between Steel Fiber Reinforced Ultra-High Strength Concrete and Rebar
by Choi, Hyun Ki
Key Engineering Materials, 2015, Vol.665, p.41-44
18.
The Preparation and Pozzolanic Activity of Metakaolin Admixtures
by Wang, Bao Min
Key engineering materials, 2013, Vol.539, p.230-234
19.
3D analysis from micro-MRI during in situ compression on cancellous bone
by Benoit, Aurélie
Journal of biomechanics, 2009, Vol.42 (14), p.2381-2386
20.
Evaluation of the Physico-Mechanical Properties of Concretes Containing Pet and Crushed Sand
by Aquino, José Lourenço Santos
Materials science forum, 2014, Vol.775-776, p.577-581
