Precision hard turning of ti6al4v using polycrystalline diamond inserts: Surface quality, cutting temperature and productivity in conventional and high-speed machining

This article presents the results of an experimental investigation into the machinability of Ti6Al4V alloy during hard turning, including both conventional and high-speed machining, using polycrystalline diamond (PCD) inserts. A central composite design of experiment procedure was followed to examine the efects of variable process parameters; feed rate, cutting speed and depth of cut (each at five levels) and their interaction efects on surface roughness and cutting temperature as process responses. The results revealed that cutting temperature increased with increasing cutting speed and decreasing feed rate in both conventional and high-speed machining. It was found that high speed machining showed an average increase in cutting temperature of 65% compared with conventional machining. Nevertheless, high speed machining showed better performance in terms of lower surface roughness despite using higher feed rates compared to conventional machining. High-speed machining of Ti6Al4V showed an improvement in surface roughness of 11% compared with conventional machining, with a 207% increase in metal removal rate (MRR) which offered the opportunity to increase productivity. Finally, an inverse relationship was verified between generated cutting temperature and surface roughness. This was attributed mainly to the high cutting temperature generated, softening, and decreasing strength of the material in the vicinity of the cutting zone which in turn enabled smoother machining and reduced surface roughness

Metabolic Syndrome and Cardiovascular Risk Factors in Obese Adolescent

BACKGROUND: Childhood and adolescent obesity is associated with insulin resistance, abnormal glucose metabolism, hypertension, dyslipidemia, inflammation, liver disease, and compromised vascular function. The purpose of this study was to determine the prevalence of cardiovascular risk factor abnormalities and metabolic syndrome in a sample of obese adolescent as prevalence data might be helpful in improving engagement with obesity treatment in future. The high blood lipid levels and obesity are the main risk factors for cardio vascular diseases. Atherosclerotic process begins in childhood.AIM: This study aimed to investigate the relationship between obesity in adolescent and their blood lipids levels and blood glucose level.METHODS: This study was conducted with 100 adolescents of both gender age 12-17 years and body mass index (BMI) greater than 95th percentiles and 100 normal adolescents as control group. The blood samples were collected from all adolescents after overnight fasting (10 hours) to analyze blood lipids (Total cholesterol, high density lipoprotein, low density lipoprotein) and hematological profile (Hemoglobin, platelets and red blood cell, C reactive protein and fasting blood glucose.RESULTS: There were statistical difference between the two groups for red blood cells (P<0.001), Hemoglobin (P < 0.001) and platelets (P = 0.002), CRP (P = 0.02). Positive correlation was found between the two groups as regards total cholesterol (P = 0.0001), P value was positive for HDL (P = 0.005 and Atherogenic index P value was positive (P = 0.002). Positive correlation was found between the two group as regards fasting blood glucose (P = 0.001).CONCLUSION:  Saturated fat was associated with elevated lipid levels in obese children. These results reinforce the importance of healthy dietary habits since child-hood in order to reduce the risks of cardiovascular diseases in adulthood

Effect of Horizontal DNA Transfer in Azospirillum and Azotobacter Strains on Biological and Biochemical Traits of Non-legume Plants

Abstract: Auxin production by Azospirillum and Azotobacter is believed to play a major role on promoting plant growth. Non legume plants inoculated with different genetically modified strains is significantly stimulated due to the contribution of Auxin biosynthesis by Azospirillum transconjugants affecting on root fresh weight of sugar beet above the plants fertilized with 50% of recommended dose. This study focuses the association between 2,4-D and Azospirillum which revealed significant increase in leaf area of top variety at the presence of 2,4-D above the plants fertilized with nitrogen recommended dose. At the absence of 2,4-D some of transconjugants significantly stimulate the leaf area of top variety above the plants fertilized with 50% of nitrogen recommended dose. The importance of horizontal gene transfer is an adaptive mechanism for bacteria, which may result in increased genetic variation by bringing together DNA from different genetic backgrounds. Furthermore, Azospirillum transconjugants (extra copy of DNA) were evaluated in field trail. Together, these results confirm the important role of IAA produced by transconjugants on stimulating root weight and illustrate the power of combining genetic tools and bioassays to elucidate the mechanism of a beneficial Azospirillum -plant interaction. The effects of biofertilizing by Azospirillum transconjugants on the technological parameters of sugar beet were studied. The better results were gained at variety Top (sugar %, potassium, sodium, quality) at the absence of 2,4-D under the effect of biofertilization, but variety dispery obtained better results of alphaamino-nitrogen under the effect of nitrogen recommended dose. When plant-growth promoting rhizobacteria (Azotobacter strains) were used as inoculants for biofertilization and phytostimulation of canola, some of the inoculants improving growth and yield parametres; leaf area, plant height, root dry weight and grain yield/plant above the plants fertilized with 50% of nitrogen recommended dose. In addition, chlorophyll b and grain yield/plant in Serw 6 variety was significantly affected by the addition of 2,4-D. Corn plants biofertilized with Azospirillum strains and their transconjugants appeared significant effect on ear length, plant height, grain content of carotene and leave content of cholorophyll pigments. This work describes the beneficial effect of genetic variations in rhizobacterium strains, which contains an active biological containment system affecting on their effectiveness of nitrogen fixation and auxin production. This leading to recommend to inoculate non -legume plants with selected rhizobacterial isolates to exhibit stimulatory effect on grain yield and root fresh weight (sugar beet). However, plantresponse was varied, due to plant varieties and genetic constitution of rhizobacterial strains as shown in this study. Field experiments conducted in this study on two varieties of sugar beet, canola and corn demonstrated an increase in root fresh and/or dry weight, shoot dry weight and grain yield of inoculated seedlings, above that in the plants fertilized with 50% of nitrogen recommended dose. Colonization of the non-legume plants by rhizobacteria have indirect and direct effects on plant growth and their developments. Direct effects include enhanced provision of nutrients and the production of phytohormones. Indirect effects involve aspects of biological control: the production of antibiotics and the induction of plant resistance mechanisms. It was concluded that the highest auxins-producing strains also caused a maximum increase of growth and yield of non-legume plants

Camels and Climate Resilience: Adaptation in Northern Kenya

In the drylands of Africa, pastoralists have been facing new challenges, including those related to environmental shocks and stresses. In northern Kenya, under conditions of reduced rainfall and more frequent droughts, one response has been for pastoralists to focus increasingly on camel herding. Camels have started to be kept at higher altitudes and by people who rarely kept camels before. The development has been understood as a climate change adaptation strategy and as a means to improve climate resilience. Since 2003, development organizations have started to further the trend by distributing camels in the region. Up to now, little has been known about the nature of, reasons for, or ramifications of the increased reliance on camels. The paper addresses these questions and concludes that camels improve resilience in this dryland region, but only under certain climate change scenarios, and only for some groups.This study was funded by The Royal Geographical Society with Institute of British Geographers Thesiger-Oman Fellowship