HPCM

AcronymDefinition
HPCMHpc Modernization
HPCMHyperion Profitability and Cost Management (software)
HPCMHigh-Performance Computing Mobility
HPCMHuman Placenta Conditioned Medium
HPCMHigh Proof Cosmic Milk (Acid Drinkers album)
HPCMHomogeneous Poisson Clustered Model
HPCMHigh-Performance Coded Mode
HPCMHigh Performance Computational Mechanics
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References in periodicals archive ?
Secondly, HPCM specimens were prepared through uniform mixing.
The workability, the dry shrinkage, and the strengths of the materials with different curing times are considered as evaluation indexes for grouting materials, and the results of the range analysis of the HPCM indicators are listed in Table 5.
Analysis of the Workability on HPCM. As shown in Table 4, the factors affecting the workability, in the order of importance, are the polycarboxylate superplasticizer, the water-binder ratio, the accelerating admixture, the expansion admixture, the mineral powder, and the sand-binder ratio, and their weight ratios are 28.18%, 25.75%, 17.97%, 11.49%, 8.28%, and 7.69%, respectively.
Analysis of the Drying Shrinkage on HPCM. During the hardening process, dry shrinkage of the cement mortar would occur, resulting in the emergence of the fine cracks inside the semiflexible pavement.
Analysis of Strengths on HPCM. As shown in Table 4, the factors affecting the 1 day flexural strength, in the order of importance, are the expansion admixture content, the accelerating admixture content, the water-binder ratio, the polycarboxylate superplasticizer content, the content of the mineral powder, and the sand-binder ratio, and their weight ratios are 22.52%, 19.45%, 18.95%, 15.07%, 14.08%, and 9.93%, respectively.
The results suggest that the water-binder ratio, the expansion admixture, and the polycarboxylate superplasticizer have great effects on the 1 day strength of HPCM, and their importance is nearly the same.
The above results show that the expansion admixture and the polycarboxylate superplasticizer have a great influence on the 3 days' strength of HPCM, the water-binder ratio and the sand-binder ratio have a slight influence, and the mineral powder content and the accelerating admixture content have a weak influence on the 3 days' strength of HPCM.
The above results show that the polycarboxylate superplasticizer content has the greatest effects on the 7 days' strength of HPCM, and the mineral powder content and the accelerating admixture content have a weak influence on the 7 days' strength of HPCM.
The above results show that the polycarboxylate superplasticizer and the water-binder ratio possess a great influence on the 28 days' strength of HPCM, the sand-binder ratio and the expansion admixture have a slight influence, and the mineral powder and the accelerating admixture have the worst influence on the 28 days' strength of HPCM.
The flexural strength of HPCM is mainly affected by the expansion admixture content and the accelerating admixture content, followed by the polycarboxylate superplasticizer content and the water-binder ratio.