S.three. Analysis of Test Benefits 3. Evaluation of Test Outcomes Figure 4 shows
S.three. Analysis of Test Final results 3. Analysis of Test Final results Figure four shows original waveform MCC950 MedChemExpress obtained from the test. The simplified threeFigure four shows the the original waveform obtained from the test. The simplified 3(a) (b) wave method [25] was usedprocess thethe test information using the following equations: wave strategy [25] was used to to method test information together with the following equations: Figure three. Microscopic test equipment: (a) scanning electron microscope and (b) X-ray diffraction AE (t) = 0 (t)A0 E apparatus. (1) (1) (t) = (t) As As3. Analysis of Test Outcomes C0 C0 (2) (2) I (t – R Figure four shows the (t)= (t) [waveform)obtained- T (t)] test. The simplified threeoriginal = (t) s- [ I(t) – T (t) ](t) from the L R Ls wave method [25] was applied to course of action the test information using the following equations: C t (3) ( C t 0 [ A ) – R (t d t (t)= t) 0= [I (t) – IR(t0 E T (t) ] ) – T (t)]dt (t) – (3) (1) 0 (t) Ls 0 Ls (t) = As where (t),(t), and (t) represent the pressure, VBIT-4 site strain rate, and strain of specimens, respecwhere (t)(,t)(t)(,t), and(t) t)represent the incident strain, reflected strain of specimens, tively; I , R and T ( represent the strain, strain price, and strain, and transmission C (2) (t) = 0 [I (t) – R (t) – T (t) ] strain, respectively; and , and E, C0 represent the incident strain, reflected strain, respectively; I (t) , R (t) A0 , As , T (t)s, and Ls represent the cross-sectional area on the bar, L the cross-sectional area from the specimen, 0, As, E, C and Ls represent the cross-sectional and transmission strain, respectively; and Athe elastic0,modulus, the elastic compression wave C t velocity, as well as the length on the test piece,I (t) – R (t) – T (t) ] d t (t) = 0 [ respectively. (3) Ls(t) , and (t) represent the anxiety, strain price, and strain of specimens, respectively; I (t) , R (t) , and T (t) represent the incident strain, reflected strain,exactly where (t) , and transmission strain, respectively; and A0, As, E, C0, and Ls represent the cross-sectionalCrystals 2021, 11, x FOR PEER Assessment Crystals 2021, 11, x FOR PEER REVIEW5 of 15 five ofCrystals 2021, 11,location in the bar, the cross-sectional location in the specimen, the elastic modulus, the elastic location from the bar, the cross-sectional location from the specimen, the elastic modulus, the elastic compression wave velocity, and also the length from the test piece, respectively. compression wave velocity, along with the length from the test piece, respectively.1.0 1.0 0.eight 0.8 0.six 0.five ofIncident wave Incident wave Transmitted wave Transmitted waveVoltage Voltage VV0.four 0.four 0.2 0.two 0.0 0.0 0.0 0.0 -0.two -0.two -0.four -0.4 -0.6 -0.six -0.eight -0.8 -1.0 -1.0 0.two 0.two 0.4 0.four 0.six 0.0.8 0.1.0 1.Timems Timems Reflected wave Reflected waveFigure 4. Common original waveform. Figure 4. Typical original waveform. Figure 4. Common original waveform.three.1. Dynamic Tension train Curve 3.1. Dynamic Anxiety train Curve The dynamic anxiety train curves ofof the cement soil specimens could be roughly didynamic tension train curves the cement soil specimens can The dynamic pressure train curves in the cement soil specimens be roughly divided is usually roughly divided into an elastic stage, plastic stage, and failure stage (as shown in Figure5) according into an elastic stage, plastic stage, and failure stage (as shown in Figure five) according vided into an elastic stage, plastic stage, and failure stage (as shown in Figure five) based on adjustments on the curing period and Na2SO4 answer concentration. The pressure with the the modifications in the curing period and Na2 SO solut.
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