REVIEW OF TOPICAL ENLARGEMENT IN LASER BEAM MACHINING

Laser beam technology is a standout amongst the most generally utilized warm vitality based non-contact sort progress machining process which can be connected for entire scope of materials. The cost of slicing hand-to-machine materials by customary mechanical machining procedures is high because of the low material expulsion rate and short device life, and a few materials are unrealistic to be cut by the traditional machining process. Laser beam/pillar is focused for softening and vaporizing the undesirable material from the parent material. It is reasonable for geometrically complex profile cutting and making smaller than usual openings in sheet metal. It gives portability to natives and cargo, among the locales of Europe and past, while being a motor for monetary development and employments. It is accordingly critical that development is accomplished in a feasible way, thinking about wellbeing and security worries and additionally unfriendly atmosphere pertinent and ecological impacts. Lasers are generally utilized as a part of assembling, correspondence, estimation and restorative. Vitality thickness of the laser beam/pillar can be adjusted by fluctuating the wavelength. This property has made the lasers capable for expelling to a great degree little measure of material and has prompted the utilization of lasers to produce little elements in work section constituents. The basic investigation of different hypothetical and exploratory reviews is utilized to portray the execution of laser pillar miniaturized scale machining on a portion of the propelled manufacturing materials. This paper gives a survey on the different research activities done in laser beam technology. The substance of paper contains a concise presentation of recent development in laser beam and its improvement

Space technology capacity building in support of SDG 2030 through CubeSat SharjahSat-l

The SHARJAH-SAT-1 would be the first CubeSat mission to be developed by the Sharjah Academy for Astronomy, Space Sciences, and Technology (SAASST)students and researchers, with the aim of not only designing, fabricating, testing & launching the CubeSat itself, but also building the capacities and expertise for future SAASST CubeSat missions as well. For the project, SAASST is working in close collaboration with an experienced international partner, the Istanbul Technical University, Space Systems Design and Test Laboratory which has already developed and launched 5 CubeSats into low earth orbit. Overall, the project, puts the human capacity development in its center, in support of UN SDG 2030 for an equal world

Peptides, Proteins and Antibodies

Peptide and protein therapeutics are increasingly able to address a growing range of clinical pathologies and their high specificity and potency combined with low toxicity of metabolic products and minimal potential for drug–drug interactions makes them attractive candidates for clinical development. The pharmaceutical industry is today more in need of delivery technologies that are able to stabilise and effectively deliver therapeutic peptides and proteins across physiological barriers and particularly via non-parenteral routes. Nanoparticulate delivery has the potential to stabilise peptide and protein therapeutics from physical and enzymatic degradation, reduce clearance via the kidneys, prolong plasma half-lives and even target these molecules to the tissue of interest. Nanoparticulate technologies have enabled the delivery of peptide therapeutics via the oral, nasal and pulmonary route and numerous preclinical nano-delivery systems such as polymeric nanoparticles, lipidic nanoparticles and drug–polymer conjugates have been investigated for the delivery of protein therapeutics. In this chapter, a description of these delivery systems and their applications will be discussedNon peer reviewe