5,305 research outputs found
Effects of external environments on the short beam shear strength of filament wound graphite/epoxy
Filament wound graphite/epoxy samples were immersed in seawater, deionized water, and toluene at room temperature and 80 deg C for 5, 15, and 43 days, and in methanol at room temperature for 15 and 43 days. The percent weight gains and short beam shear strengths were determined after environmental exposure. Samples immersed in deionized water and seawater had higher percent weight gains than those immersed in toluene at room temperature and 80 deg C. The percent weight gains for samples immersed in methanol at room temperature were comparable to those of deionized water and seawater immersed samples. A comparison of percent decreases in short beam shear strengths could not be made due to a large scatter in data. This may indicate defects in samples due to machining or variations in material properties due to processing
Laser Wire Simulations for the CLIC Beam Delivery System using GEANT4
The laser wire scanner (LWS) is a non-destructive beam diagnostic which has been proposed for CLIC and other very low emittance electron beams. Measurements of the beam size can be made with submicron resolution. Different configurations for detecting scattered electrons are simulated using GEANT4, and the signals compared with the backgrounds resulting from expected halo losses. The requirements of the LWS are compared with conditions in the CLIC Beam Delivery System. Measurements of emittance with better than 10% accuracy seem achievable for realistic parameters
Process for producing tris s(n-methylamino) methylsilane
A method of producing tris (N-methylamine) methylsilane is described including the steps of forming and cooling a liquid solution of methylamine in an inert solvent and under an inert atmosphere at a temperature of about -30 C and slowly adding a quantity of methyltricholorosilane while maintaining said temperature. The reaction mixture is then heated for about 60 minutes at a temperature of about 40 C, followed by filtering the solid portion from the liquid portion. The liquid is distilled to remove the solvent, resulting in a high yield of tris (N-methylamine) methylsilane
A review of melt and vapor growth techniques for polydiacetylene thin films for nonlinear optical applications
Methods for the growth of polydiacetylene thin films by melt and vapor growth and their subsequent polymerization are summarized. Films with random orientations were obtained when glass or quartz were used as substrates in the vapor growth process. Oriented polydiacetylene films were fabricated by the vapor deposition of diacetylene monomer onto oriented polydiacetylene on a glass substrate and its subsequent polymerization by UV light. A method for the growth of oriented thin films by a melt-shear growth process as well as a method of film growth by seeded recrstallization from the melt between glass plates, that may be applied to the growth of polydiacetylene films, are described. Moreover, a method is presented for the fabrication of single crystal thin films of polyacetylenes by irradiation of the surface of diacetylene single crystals to a depth between 100 and 2000 angstroms
A preliminary review of organic materials single crystal growth by the Czochralski technique
The growth of single crystals of organic compounds by the Czochralski method is reviewed. From the literature it is found that single crystals of benzil, a nonlinear optical material with a d sub 11 value of 11.2 + or - 1.5 x d sub 11 value of alpha quartz, has fewer dislocations than generally contained in Bridgman crystals. More perfect crystals were grown by repeated Czochralski growth. This consists of etching away the defect-containing portion of a Czochralski grown crystal and using it as a seed for further growth. Other compounds used to grow single crystals are benzophenone, 12-tricosanone (laurone), and salol. The physical properties, growth apparatus, and processing conditions presented in the literature are discussed. Moreover, some of the possible advantages of growing single crystals of organic compounds in microgravity to obtain more perfect crystals than on Earth are reviewed
Regulating Securitisation in the Aftermath of the Global Financial Crisis: Lessons from Europe
The conventional narrative surrounding securitisation after the Global Financial Crisis was based on a fundamentally flawed understanding of the real role and purpose of the financing technique. It failed sufficiently to distinguish between transactions that were entered into to support real economy lending, and/or as a means of transferring risk for regulatory capital purposes, and more complex structures that were developed later to profit from arbitrage opportunities. Falling under the spell of this conventional narrative, the regulator developed post-crisis an ever-changing, all-encompassing and highly punitive regulatory framework that resulted in the virtual disappearance of the European securitisation market. A new regulatory framework was introduced in 2019 and, although not yet finalised, it does go some way towards addressing the shortcomings of its predecessor. It remains to be seen whether the new regime will suceed in primary objection of reviving the market; early indications suggest further changes will be required
Method for machining holes in composite materials
A method for boring well defined holes in a composite material such as graphite/epoxy is discussed. A slurry of silicon carbide powder and water is projected onto a work area of the composite material in which a hole is to be bored with a conventional drill bit. The silicon carbide powder and water slurry allow the drill bit, while experiencing only normal wear, to bore smooth, cylindrical holes in the composite material
Preparation of silicon carbide-silicon nitride fibers by the pyrolysis of polycarbosilazane precursors
The development of silicon carbide-silicon nitride fibers (SiC-Si3N4) by the pyrolysis of polycarbosilazane precursors is reviewed. Precursor resin, which was prepared by heating tris(N-methylamino)methylsilane or tris(N-methylamino)phenylsilane to about 520 C, was drawn into fibers from the melt and then made unmeltable by humidity conditioning at 100 C and 95 percent relative humidity. The humidity treated precursor fibers were pyrolyzed to ceramic fibers with good mechanical properties and electrical resistivity. For example, SiC-Si3N4 fibers derived from tris(N-methylamino)methylsilane had a tensile rupture modulus of 29 million psi and electrical resistivity of 6.9 x ten to the 8th power omega-cm, which is ten to the twelfth power times greater than that obtained for graphite fibers
- …