Specific Gravity Values Research Articles

Clayshale Stabilization using Portland Pozzolan Cement Type II to Increase the Shear Strength of Soil

Clayshale soil was found 5 meters below ground level in the Hambalang area. The fragility of clay shale soil results in clay shale soil being rarely used in construction needs. The physical condition of clayshale is not optimal when it is dry and also when it is mixed with water. This research is carried out so that the cohesion value and shear strength in the clayshale is close to perfection with the stabilization process. Disturbed sampling was carried out in the Hambalang area, providing that the granules passed the 4mm filter. Tests carried out to obtain soil parameters include physical properties testing and mechanical properties testing. Based on the results of laboratory tests, the original clayshale soil has a plasticity index (IP) value of 27.07%, so clayshale soil included CL (Clay-Low plasticity) according to the USCS category. The use of Portland pozzolan cement in this study is because it has high resistance to salts and sulfuric acid. Mixing of PPC cement test materials was carried out to determine the optimal cohesion value and shear strength by mixing 5%,8%, and 11% of clayshale weight per sample. The addition of cement variations can increase the specific gravity value of the soil and the optimum moisture content, but it can reduce the dry weight value of the soil and the value of the plasticity index on clayshale soils. The cohesion values and soil shear strength obtained after Triaxial UU testing on samples with the addition of Portland pozzolan cement (PPC) increased; however, the increase that occurred was varied and significant at the time of the PPC cement mixture.

Stress-Strain State Assessment of Building Subfoundations Having Flexible Constructive Scheme in Irregular Soil Stratification

Introduction. One of the main problems in the operation of buildings and structures is possibility of their damage due to non-uniform deformation of subfoundation soil caused by the various natural and technogenic factors. To establish the possible character and degree of damage of the above-surface structures, it is necessary to calculate the value of subfoun- dation relative differential settlement at the level beneath the foundation bottom. The subfoundation settlement is calculated within the compressible soil thickness using the specific gravity values and soil deformation modulus. The increment of settlement is induced by the increase of vertical stresses in the massif and increase of soil deformability upon growth of moisture. The purpose of the study is to establish the dependence of the magnitude of the relative difference in settlement on the deformation properties of soils with uneven occurrence of layers in order to predict the nature of damage to above-ground structures.Materials and Methods. An example of subfoundation deformation calculations at the bottom level of the free-standing foundations of a building having flexible constructive scheme has been studied. A model of stratification of two heterogeneous geotechnical elements with a 1:4 boundary slope and differing physical and mechanical properties has been used. It has been assumed that one of the geotechnical elements has natural properties enabling the building foundations to rest on it without prior site preparation. Another geotechnical element has significantly worse properties. The calculations on determining the settlement have been made in accordance with the layer-wise summation methodology.Results. The regularity in alteration of the predicted settlement value depending on the ratio of firm and soft soils thickness in the irregular stratification has been established. It has been proven that the difference between the specific gravity values of the heterogeneous beds within 10 % does not affect the depth of compressible soil thickness if the calculation of settlement is made using the layer-wise summation methodology.Discussion and conclusions. The calculation results analysis of the subfoundation settlement of the equidistant column foundations was carried out, the engineering solution was proposed to ensure reliability per limit state groups.

Comparing thermal strain in outdoor maintenance and indoor service workers in the mining industry during summer.

While working in the heat is a common practice within the Australian mining industry, it can lead to adverse effects on cognitive function, productivity, and physical health. This study aimed to compare the thermal strain experienced by maintenance workers and service workers in the mining industry during summer. Psycho-physiological parameters, manual dexterity, and cognitive function were assessed in maintenance workers (n = 12) and service workers (n = 12) employed at mine site villages in north-west Australia. Maintenance workers had the freedom to self-select their work intensity and predominantly worked outdoors (33.9±4.2°C, 38±18% RH), whereas service workers had to work to a fixed schedule and worked intermittently indoors (∼64% of work shift; 29.5±3.4°C, 48±8% RH) and outdoors (∼36%; 35.4±4.6°C, 47±21% RH). All workers underwent assessment at the beginning (day 2/3), middle (day 7/8), and end of their swing (day 13/14), at various time points throughout their 11-12 h shift. Service workers completed more steps (11282±1794 vs. 7774±2821; p<0.001), experienced a higher heart rate (p = 0.049) and reported higher ratings of perceived exertion (p<0.001), thermal discomfort (p<0.001), thermal sensation (p<0.001), and fatigue (p<0.012) compared to maintenance workers. Urinary specific gravity values were higher (less hydrated) in service workers (1.024±0.007) compared to maintenance workers (1.018±0.006; p = 0.007), with USG being overall higher post- compared to pre-shift (1.022±0.008 vs. 1.020±0.006; p<0.05). Core temperature, working memory capacity, processing speed and manual dexterity did not differ between occupations. Workers in hot environments who cannot self-select their work intensity should be educated about the importance of hydration before, during, and after their work-shifts and provided with more scheduled rest breaks during their shift. Employers should closely monitor workers for symptoms of heat illness, discomfort, and fatigue to ensure the health and safety of the workers.

Physicochemical test of leucaena leucocephala pellets using various types of adhesives

Forage availability is a problem in developing sustainable livestock farming for ruminants in Indonesia. The availability of forage is influenced by several factors, one of which is the availability of land for fodder crop cultivation. The study aimed to test the physicochemistry of Leucaena leucocephala pellets using various types of adhesives originating from local raw materials in the form of tapioca flour, corn flour, sago flour, and commercial adhesives which were carried out for 1 month, namely August 2022 at the Animal Feed Analysis Unit Laboratory, Unit Laboratory Feed Manufacturing, and Transportation Engineering System Laboratory, Halu Oleo University. The results of the study showed that the use of various types of adhesives on the physical and chemical qualities of Leucaena leucocephala forage pellets had a significant effect on the value of pellet durability index, specific gravity, crude protein, dry matter, and organic matter. In contrast, the density value did not show a significant effect. The best results were found using a 3% sago flour adhesive with a Pellet durability index value of 86.71% and a specific gravity of 1.27 g/ml. The adhesive that can improve the chemical quality of Leucaena leucocephala pellets uses 3% corn flour adhesive, which produces a crude protein content of 24.92%. The highest dry material and organic ingredients values are obtained using 3% Tapioca flour adhesive with values of 95.73% and 88.04%.

Urine concentrating ability in cats with hyperthyroidism: Influence of radioiodine treatment, masked azotemia, and iatrogenic hypothyroidism.

Hyperthyroid cats often have urine specific gravity (USG) values <1.035. It remains unclear how USG changes after treatment, if USG can be used to predict azotemia after treatment, or how iatrogenic hypothyroidism influences USG values. To determine the proportion of hyperthyroid cats with USG <1.035 vs ≥1.035; if USG changes after treatment; and whether USG <1.035 correlated with unmasking of azotemia or hypothyroidism. Six hundred fifty-five hyperthyroid cats treated with radioiodine; 190 clinically normal cats. Prospective, before-and-after study. Hyperthyroid cats had serum thyroxine, thyroid-stimulating hormone, and creatinine concentrations, and USG measured before and 6 months after successful treatment with radioiodine. Of untreated hyperthyroid cats, USG was ≥1.035 in 346 (52.8%) and <1.035 in 309 (47.2%). After treatment, 279/346 (80.6%) maintained USG ≥1.035, whereas 67/346 (19.4%) became <1.035; 272/309 (88%) maintained USG <1.035, whereas 37/309 (12%) became ≥1.035. Only 22/346 (6.4%) with USG ≥1.035 developed azotemia after treatment, compared with 136/309 (44%) with <1.035 (P < .001). Of cats remaining nonazotemic, 38% had USG <1.035, compared with 20% of normal cats (P < .001). The 137 cats with iatrogenic hypothyroidism had lower USG after treatment than did 508 euthyroid cats (1.024 vs 1.035), but USGs did not change after levothyroxine supplementation. USG <1.035 had high sensitivity (86.1%) but moderate specificity (65.2%) in predicting azotemia after treatment. Hyperthyroidism appears not to affect USG in cats. However, cats with evidence of sub-optimal concentrating ability before radioiodine treatment (USG < 1.035) are more likely to develop azotemia and unmask previously occult chronic kidney disease. Iatrogenic hypothyroidism itself did not appear to affect USG values.

Influence of Integration of Iron Ore Tailings on the Physio-mechanical and Microstructure Properties of Fly Ash–Based Coarse Aggregates

Abstract The goal of this experimental study is to produce fly ash (FA)-based coarse aggregates by adding iron ore tailings (IOT) to the FA-based precursor as an additional mix component. The involvement of different types of binders—influential factors of both pelletization and geopolymerization that govern the production of FA-based coarse aggregates—was experimentally designed by adopting Taguchi’s experimental design. An evaluation was conducted utilizing response indexes at three curing periods to study the accumulation of all the influencing factors in the production process as well as on the engineering features of IOT admixed FA-based coarse aggregates. Aggregate impact and crushing values, individual pellet strength (IPS), and specific gravity and water absorption values were measured. According to experimental findings, IOT addition considerably affects the engineering characteristics of FA-based coarse aggregates. The heat resistance of the produced aggregates was found to be improved by the presence of different sodium oxide dosages and blending ratios (IOT:FA) based on analysis through scanning electron microscopy and thermogravimetric differential thermal analysis. The role of IOT in associative formation of calcium silicate hydrate is demonstrated by increasing calcium hydroxide, which supports increasing IPS values of produced aggregates. From the 1st to the 200th day of curing age, Fourier-transform infrared spectroscopy studies between the best- and worst-performing mixes showed two things: first, the emergence of new peaks with time, and second, the observation of major bands shifting to lower and higher wavenumbers, which was found to be directly correlated to the performance of the aggregates.

Thermodynamics of cellulose esterification

This research discusses the standard enthalpies of the combustion and formation of cellulose acetates and nitrates. In addition, the standard enthalpies of cellulose esterification were calculated. For cellulose acetates, it was shown that an increase in the degree of substitution (SD) contributes to enhancing both the exothermic enthalpy of the formation and the exothermic enthalpy of the reaction. It was concluded that the feasibility of the acetylation reaction of cellulose, especially to di- and triacetates, is determined mainly by the exothermic enthalpy. The experiments with nitrocelluloses have shown that with an increase in SD, the enthalpies of combustion and formation become less exothermic. When cellulose is nitrated with dilute nitric acid to SD &lt; 1.5, the enthalpy of the nitration reaction is endothermic. Thus, to implement the nitration process of cellulose with a dilute reagent, the contribution of the entropy to the Gibbs potential of this reaction is necessary. On the other hand, when cellulose is nitrated with more concentrated nitric acid to SD &gt;1.5, the reaction enthalpy becomes exothermic. In this case, the feasibility of the cellulose nitration process will be determined mainly by the exothermic reaction enthalpy. As the degree of substitution increases, the specific gravity of cellulose acetates decreases, while that of nitrocelluloses increases. From experimental values of specific gravity, the degree of substitution of cellulose derivatives was calculated.

Effect of silane-siloxane based water-repellent impregnant on the dimensional stability of some wood species

A silane-siloxane based water-repellent substance (S-WR) was used as an impregnation material for Scots pine (Pinus sylvestris L.), black pine (Pinus nigra Arnold), sessile oak (Quercus petraea Liebl.), and cedar (Cedrus libani A. Rich). In the impregnation process, the immersion method was carried out for various periods (30 min, 3 h, and 24 h). Following impregnation, physical properties of the wood (retention, contraction, expansion, water intake rate, specific gravity, etc.) were determined. The retention was highest in sessile oak wood (0.96%) and lowest in black pine wood (0.24%). The highest specific gravity value was found in stemless oak (0.86 g/cm³) impregnated for 24 h, and the lowest air-dry specific gravity value was found in Scots pine (0.40 g/cm³) impregnated for 30 minutes Absolutely dry (0% humidity) specific gravity was highest in sessile oak for 24 h (0.83 g/cm³). Shrinkage was highest in the sessile oak control sample (13.5%). The expansion amount was highest in the cedar wood control sample (17.5%) and lowest in sessile oak wood (1.66%). The highest water uptake rate (SAO) was determined in Scots pine wood at 96 h (105%), and the lowest in sessile oak wood in 24 h (8.80%). In summary, silane-siloxane based water-repellent impregnation material was found to be effective in providing dimensional stability in wood.

Chlorophyll content in leaves of highland potatoes for estimating tubers quality

In this study, we assessed the relationship between tubers quality of three varieties (INIAP Libertad, INIAP Josefina and Diacol Capiro) of Ecuador highland early of potato and two formulations of edaphic fertilizer sources. Leaf chlorophyll content (LCC) was evaluated with Chlorophyll Meter SPAD-502Plus. Samples were taken at different heights in three phenological stages: vegetative grow, flowering–formation of tubers and ripening-thickening. Several responses were found in the three potato varieties. Correlation between SPAD value and weight of tubers (W), dry matter (DM), specific gravity (SG) and good chips (GC) were significantly correlated with potato leaves chlorophyll content. For Libertad variety and formulation (KNO3 + NH4H2PO4 + KCl), at vegetative grow in upper strata of plant, the optimal mathematic function for SPAD value andW, DM, SG and GC were: y = 0.262x (R = 0.9938), y = 42.948e (R = 0.5240), y = 10x (R = 0.3277) and y = 10x (R = 0.8681); at plant flowering-formation of tuber stage, the optimal function models were: y = 10 x (R = 0.8553), y = 28.789 e (R = 0.9103), y = 10 x(R = 0.7543) and y = 0.468x + 64.361 (R = 0.9935); at plant ripening-thickening, the optimal function models were: y = 0.664 e (R = 0.7924), y = 29.370 e (R = 0.9572), y = 10 x (R = 0.8247) and y = 0.576x + 62.675 (R = 0.9690), respectively. Our results showed that the use of SPAD-520PLUS proved to be a rapid method for the determination of LCC, being an effective tool for estimating potato tuber quality.

PETROGRAPHY AND AGGREGATE ANALYSIS OF THE CARBONATES FROM THE BABUZAI AREA, PAKISTAN

This study is conducted to evaluate aggregate characteristics and potential of carbonates rocks of the Kashala Formation, Babuzai area Khyber Pakhtunkhwa Pakistan. Physical and chemical tests were performed to assess aggregate suitability. Laboratory tests reveal Los Angeles Abrasion values of 17%, Flakiness and Elongation Index of 13% and 19.7% respectively, and Clay lumps and friable value of 0.12%. Stripping and Coating value greater than 95%, Specific gravity value (2.7-2.9). The aggregate soundness value was logged at 1.28. These parameter values were evaluated through the ASTM (American Society for Testing and Materials) and BS (British Standards) which specify that the Kashala Formation (KF) of the Alpurai group can be the potential source for dimension stone i.e., natural rock material in form of blocks or slabs quarried for commercial purposes, road, and concrete aggregates. The petrographic studies of the selected samples have majorly 70 to 75% of Calcite with an insignificant amount of 20 to 25% dolomite, 5 to 8% quartz along with ores of 1 to 2%. The small number of quartz grains and ore minerals indicate that sample formation is composed of dolomitic marble having a limited amount of deleterious content such as quartz, dolomite, and clays, which suggests that the carbonates have an insignificant threat of ACR (Alkali carbonate reaction) and ASR (Alkali silica reaction). The study indicates that the carbonates of the Babuzai area fall within the standard specification limits and can be used as a source for the indigenous construction industry.

Analysis of the Calorific Value and Specific Gravity of Breadfruit Peel Bioalcohol (Artocarpus Altilis) as an Alternative Fuel at Various Distillation Temperatures

The objective of this study was to investigate how distillation temperature affected the specific gravity (SG) and calorific value of bioalcohol derived from breadfruit peels (Artocarpus altilis) as an alternative fuel. The process of producing bioethanol from breadfruit peels begins with pretreatment of the peels, followed by hydrolysis with hydrochloric acid, fermentation, and finally distillation. The hydrolysis process used 20% hydrochloric acid in a volume of 25 ml, and the fermentation took 6 days with a mass of 30 gr of yeast Saccharomyces cerevisiae. The distillation process lasted two hours, with temperatures varying between 70, 80, and 90°C. This study yielded the highest alcohol content of 72.80% at 70°C and the highest volume of bioalcohol of 35.67 ml at 90°C. Meanwhile, the best Specific Gravity (SG) at 70°C was 0.8393. Furthermore, the calorific value test results revealed that the calorific value increased with increasing alcohol content. The highest calorific value obtained was 23003.406 J/gr, which was close to the ethanol calorific value of 29700 J/gr, while the lowest calorific value obtained was 22339.008 J/gr at a distillation temperature of 90°C

Determinants of Hydration Status in Martial Athletes at The Student Sports Training Center Jakarta

Adolescent athletes are a group that’s vulnerable to decreased water content and has a higher risk of dehydration. Results showed, 22% of adolescent athletes were highly dehydrated. This study aims to knowing the determinants factor of hydration status for martial arts athletes in Pusat Pelatihan Olahraga Pelajar DKI Jakarta. The research uses a quantitive method with a cross sectional design and sample of 50 martial arts athletes (13-18 years). Data obtained through food recall 1x24 hours for fluid consumption, nutritional status with BMI/U, percent body fat with Ultrasonic Body Fat Analyzer SR-HW 05 Serenity instrument, physical activity with PAL sheets, and hydration status with Specific Gravity values. Data analysis using Pearson correlation test. The results showed a significant correlation between female nutritional status (p&lt;0.05), male and female fluid consumption (p&lt;0.05) with hydration status of martial arts athletes. However, there was no significant correlation between male nutritional status, male and female percent body fat, male and female physical activity with hydration status of martial arts athletes (p&gt;0.05). Fluid consumption is factor that affects the hydration status of male and female martial arts athletes. It’s important for athletes to maintain their hydration status in order to carry out training and competitions optimally.

Effect of blending on physicochemical properties of groundnut, palm, and sunflower oil blends

The composition of the diet plays an important role in the management of lipid and lipoprotein concentrations in the blood. Vegetable oil plays a vital role in determining the human health due to its fatty acid composition. High intakes of saturated fatty acids (SFA) increase blood levels of total and low-density lipoprotein cholesterol (LDL-C) and accelerate the process of atherosclerosis. On the other hand, monounsaturated fatty acids (MUFA) and polyunsaturated fatty acids (PUFA) have the opposite effects. According to WHO and other health agencies, nutritionally superior oil must fall in the ratio of 1:1-3:1; SFA, MUFA and PUFA, respectively, however evidences suggest that no single oil can provide the recommended dietary fat ratio. To combat this fatty acid ratio problem, blending of vegetable oils is gaining popularity in the oil industry to satisfy consumer needs. Present investigation was carried out with the objective of evaluating the effect of blending on physicochemical properties of groundnut, palm and sunflower oil blends. The physicochemical properties like specific gravity, refractive index,smoke point, moisture, and free fatty acid value, peroxide value, saponification value and iodine value of vegetable oils and its blend in ratio of 50:25:25 of groundnut oil, palm oil and sunflower oil respectively were evaluated using standard analysis methods. It was observed that blending of groundnut oil with palm oil and sunflower oil affected and improved the physicochemical properties of the oil blend.

Optimization of oil extraction from Carica papaya seedoil: A case of response surface methodology

The primary goal of this research is to determine the optimum value oil and to determine the effects of operational parameters on the physiochemical properties of the Carica papaya seed oil, such as Mean Molecular mass, viscosity, API, Acid value, Free Fatty Acid (%FFA), Peroxide value, Saponification value, Iodine value, moisture content, Specific gravity, Cetane number and Higher Heating value (HHV). Respond Surface Methodology (RSM) was used for regression analysis, ANOVA and to also predict the optimal value for the Carica papaya seed oil extracted. The model was created to be significant, according to the results, and a quadratic polynomial was achieved for forecasting the extraction procedure. The highest yield obtained was 23.67% (w/w) at the sample weight (55 g) the physicochemical properties of the extracted papaya seed oil, provided papaya seed oil with obviously reddish brown color, density 955kg/m3, specific gravity 0.9235, moisture content 0.004092% acid value 27.974 mg KOH/g, % FFA 13.99, saponification value 140.25 mg KOH/g oil, iodine value 93.70, peroxide value 56.00 meq O2/kg oil, viscosity 622.1 MPa.S at 29.6oC, Cetane number 82.88, diesel value 101.22, Higher Heating value, (HHV) 29.62325MJ/kg, Mean Molecular Mass 399.3, API 21.72, aniline point 466.03. The Carica papaya seed is rich in oil and gave a high quantity of oil, using Respond Surface Method it yielded 23.67% (w/w) archived at the following optimized conditions, sample weight (55 g), extraction time (50 min), and solvent volume of 250 ml, the values for coefficient of determination (R2) for RSM 0.9835, respectively. The research concluded that papaya seed oil is rich in oil which can be applied as a major feedstock in industries.

Measurement of Dry Matter and Starch in Modern Cassava Genotypes during Long Harvest Cycles

Starch (ST) is the main determinant of cassava root industrial quality and is routinely quantified using the specific gravity (SG) method, which is simple but lacks precision. This study aimed to estimate the dry matter (DM) and ST content in nine modern cassava genotypes using the SG method and to develop updated empirical equations that relate SG values with DM and ST content. Two field experiments were conducted using a randomized block design with nine genotypes, nine to ten harvest periods, and four replicates. The correlation between root SG and DM was stronger than that between root SG and ST; however, harvest seasonality strongly influenced this relationship. Genotypes varied in their earliness of ST accumulation in the roots, and genotype-specific equations estimated root DM and ST with greater accuracy than equations based on pooled data from all genotypes. Furthermore, the equations from the literature were less accurate in estimating the root DM and ST content than the equations generated in this study. Therefore, these equations can be used by processing industries to improve the predicted cassava root DM and ST content; however, it may be necessary to include the percentage of ST that industries cannot remove from fresh cassava roots during processing.

#4209 A COMPARATIVE RETROSPECTIVE STUDY OF PATIENTS WITH ADPKD: FIRST RESULTS RELATING TO THE USE OF TOLVAPTAN

Abstract Background and Aims Autosomal Dominant Polycystic Disease (APKD) is the fourth leading cause of End Stage Renal Failure (ESRD). Since 2015, the administration of Tolvaptan has been approved in patients with APKD at high risk of progression to ESRD (Mayo classification system, classes 1C-D). Method In this study we compare the characteristics of APKD patients who received Tolvaptan (45/15 mg) in relation to those who did not receive but followed the periodic check-up. These are 33 people with an average age of 44.17± 13.6 years. Tolvaptan was administered to 9 (27.3%) patients who met the Mayo classification criteria for its administration. The mean follow-up time for all the patients was 11.41±7.4 months and for those taking tolvaptan it was 10.6±3.9 months. Values ​​of urea, creatinine, plasma sodium, specific gravity and urine osmolarity were determined at the start of follow-up and compared with those at the last visit. Results A significant reduction was observed in the values ​​of urea, osmolality and specific gravity of urine after one year of tolvaptan use compared to the group that did not receive the treatment and thus no titration of the drug dose was needed. In the same group, marginally higher values ​​of the plasma sodium were observed, but within normal limits. The indicators of renal function in both groups did not show any change. Conclusion At one year of follow-up, APKD patients who received Tolvaptan did not exhibit worsening of the kidney function. We observed changes in the values of urea, urine specific gravity and urine osmolarity associated with our instructions to drink more water, showing good compliance with the treatment.

Environmental and geotechnical properties of lightweight aggregates made of reused solid wastes

This paper presents the environmental and geotechnical characterisation of new synthetic lightweight aggregates (SLAs) composed of reused biomass fly ash and waste plastics, namely high-density and low-density polyethylene (HDPE and LDPE), with a 50:50 fly ash-to-plastic ratio by weight. One-dimensional compressibility, creep properties, compaction features and stress-strain-strength behavior of SLAs were evaluated together with hydraulic conductivity and water absorbability. The fly ash–HDPE aggregate was found to be less compressible upon loading than the companion material made of fly ash and LDPE and similar to traditional natural lightweight expanded clay aggregate. The values of creep coefficient (C αε) were slightly higher than those expected for dense sands, but comparable, or even lower, than those measured for other recycled materials. Peak friction angle (ϕ′) and cohesion intercept (c′), determined by triaxial compression tests, were in the ranges 42.3–46.3° and 1.3–8.6 kPa, respectively with the highest values concerning the fly ash–HDPE aggregate. The hydraulic conductivity (k) was around 3 × 10−4–4 × 10−4 m/s, highlighting favorable permeability properties of both aggregates. Leaching tests and thermal stability analyses proved the sustainability of both aggregates from an environmental point of view. The results obtained in the present study demonstrate the suitability of the investigated aggregates for many geotechnical applications.

Mechanical Properties of High Carbon Low-Density Steels.

The paper presents the possibilities of heat treatment of low-density structural steels usable for springs. Heats have been prepared with chemical compositions 0.7 wt% C and 1 wt% C, as well as 7 wt% Al and 5 wt% Al. Samples were prepared from ingots weighing approximately 50 kg. These ingots were homogenised, then forged, and hot rolled. Primary transformation temperatures and specific gravity values were determined for these alloys. For low-density steels, there usually needs to be a solution to achieve the required ductility values. At cooling rates of 50 °C/s and 100 °C/s, the kappa phase is not present. A SEM analysed the fracture surfaces for the presence of transit carbides during tempering. The martensite start temperatures ranged from 55-131 °C, depending on the chemical composition. The densities of the measured alloys were 7.08 g/cm3 and 7.18 g/cm3, respectively. Therefore, heat treatment variation was carried out to achieve a tensile strength of over 2500 MPa, with ductility of almost 4%. Hardnesses above 60 HRC were achieved for 1 wt% C heats using the appropriate heat treatment.

The comparison of physical and mechanical properties of sand in Sedau and Obel-Obel Village

The research was conducted in two regencies: Sedau Village in West Lombok Regency and Obel- Obel Village in East Lombok Regency. The two research sites are areas with potential sand wealth, with many sand mining companies operating. The sand mining company at the research site is expected to implement good mining practices which pay attention to mining design safety. Geotechnical recommendations on slope dimensions with a good safety factor value are required in making a mining design. Several factors affect a rock’s geotechnical properties. These factors are physical and mechanical. In this study, a comparison was made between the physical and mechanical properties of sand at two locations, which aims to compare rock characteristics and become a reference for geotechnical recommendations in the area. The research method used was sampling and testing in the laboratory. The results showed that the porosity value in Sedau Village was 0.102 and Obel-obel Village’s was 0.09. The average water content value in Sedau Village was 6.567%, and the average water content value in Obel-Obel Village was 8.233%. The specific gravity value of sand in Sedau Village was 3.75 gr/cm3, and that in Obel-obel Village was 3.75 gr/cm3. The compressive strength of sand in Sedau Village was 0.137 Mpa, and the compressive strength of sand in Obel-obel Village was 2.32 MPa. Based on the laboratory testing results, the influencing factors were analyzed, namely the location of its formation and the different processes of sand sedimentation in Sedau Village and Obel-obel Village.

In Vitro Effectiveness of Jamu Ternak Against Paramphistomiasis

The prevalence of cattles trematodosis in Bali and Nusa Tenggara at 2016 was 37.21%. Jamu ternak, an appetite enhancer assumed have a potential antiparamphistomiasis effect, but there still a lack of research has been done. This research aim was to evaluate the antiparamphistomiasis activity of jamu ternak. Jamu ternak were prepared and further characterized in terms of organoleptic, specific gravity, pH, and phytochemical screening. Wholemount preparations of Paramphistomum sp. stained with Clitoria ternatea were identified under a microscope. The adult Paramphistomum sp. were divided into 5 groups consist of 0.9% w/v NaCl, Albendazole 10%, and jamu ternak (25, 50, and 100% v/v). The percentage of flukes mortality and motility score were recorded every 15 minutes for 7 hours of incubation. Time of death, relative motility, and flukes survival index values were calculated and statistically analyzed using SPSS version 28 software. Jamu ternak colour is yellow with spicy taste, aromatic odor, specific gravity value of 1,018 and pH of 3,75. Jamu ternak contain secondary metabolites except tannins. All of groups achieved 100% mortality. The average mortality time of flukes in negative control, positive control, jamu ternak (25%, 50% and 100% v/v), respectively were 398.33; 135; 101.67; 128.33; and 108.33 minutes. The relative motility values were 95.24; 19.62; 15.71; 19.48; and 15.48 %. The survival index values were 82.9; 36.95; 27.38; 35.86; and 29.52%. Jamu ternak 25% v/v considered as the effective antiparamphistomiasis dose with the average time of death, relative motility, and survival index value higher than Albendazole 10% w/v (p<0.05).