Pengaruh Kuat Arus Dan Waktu Pengelasan Pada Proses Las Titik (Spot Welding) Terhadap Kekuatan Tarik Dan Mikrostuktur Hasil Las Dari Baja Fasa Ganda (Feritte-Martensite)

This research was conducted to investigate the appropiate spot welding variable to get the maximum tensile strength. The highest of tensile strength referred as good quality of weldment.The plate was made from low carbon steel with phase ferrite and martensite. The current of welding used 0.9 kA, 1.6 kA, dan 1.85 kA with welding time were 0.25, 0.5 , 0.75 and 1 second. Mechanical properties testing done involved tensile strength to know shear strength of weld joint. Microstructure test used optical microscope.The results show that spot welding with thecurrent of 1.85kA and welding time of 1 second has the highest tensile strength (about 237.04N/mm2). On the other hand, the lowest tensile strength (150 N/mm2) was produced by combination of 0.9 kA and 0.25 second welding time. It was caused by recrystallization phasedeformation on steel

Enrichments for scores related to incomplete selection in ASD GWAS considering different thresholds.

<p>Odds Ratio, 95% confidence interval, and p value is reported for each threshold investigated.</p

Genome-wide enrichments for scores related to incomplete selection considering different SCZ significance thresholds.

<p>Odds Ratio, 95% confidence interval, and p value are reported for each threshold investigated.</p

Null distribution of median OR (considering minor allele effect) generated from 10,000 permutations of ASD dataset.

<p>Blue line represents the median OR observed in the actual ASD dataset.</p

Similarity network based on GO enrichment results.

<p>Bubble color indicates the GO p-value; bubble size indicates the frequency of the GO term in the Gene Ontology Annotation (UniProt-GOA) Database which annotates all UniProt entries with GO terms. Highly similar GO terms are linked by edges in the graph, where the line width indicates the degree of similarity.</p

Additional file 15: of Local adaptation in European populations affected the genetics of psychiatric disorders and behavioral traits

Table S11. Addictive effects in variants included in single-locus and oligogenic PRS from NOIA analysis. (DOCX 12 kb

Additional file 7: of Local adaptation in European populations affected the genetics of psychiatric disorders and behavioral traits

Figure S1. Null distribution generated from 10,000 random permutations of the significant PRS datasets. Blue lines represent the observed results. Abbreviations are reported in Table 1 and Table 2. (DOCX 135 kb

Additional file 1: of Local adaptation in European populations affected the genetics of psychiatric disorders and behavioral traits

Table S1. Details of the European samples investigated. (DOCX 12 kb

Additional file 3: of Local adaptation in European populations affected the genetics of psychiatric disorders and behavioral traits

Table S3. Correlations (Spearman’s rho, upper triangular; p value, lower triangular) among variables related to local adaptation. p values surviving Bonferroni multiple testing correction are reported in red. Abbreviations are reported in Table 1 and Table 2. (DOCX 16 kb

Additional file 5: of Local adaptation in European populations affected the genetics of psychiatric disorders and behavioral traits

Table S5. Comparisons of regression models including 10 principal components (10PC) vs. 20 principal components (20PC). The 10PC model is the model tested in the main analysis and included as covariates 10 principal components derived from genetic information. The 20PC model was run on the top significant findings and included as covariates 20 principal components derived from genetic information. P10vs20 is the p value calculated testing the difference between these two models. Abbreviations are reported in Table 1 and Table 2. (DOCX 13 kb