رشد سلولی و دندریتی Cellular and dendritic growth

Cellular and dendritic growth

رشد سلولی و دندریتی 

ABSTRACT

Many of the alloys used in practice, such as steel, aluminum-copper alloys, nickel-base and copper-base alloys, are single phase alloys, which means that the final product of solidification is a solid solution. Depending on the thermal and compositional field, cellular or, in most practical cases, dendritic morphology will occur. In other cases, even when the room temperature microstructure is mostly eutectic some primary phases solidify before the eutectic. They can be solid solutions, carbides, intermetallic phases, inclusions, etc. Their morphology affects mechanical properties, and thus, understanding how this morphology can be controlled is a mater of significant practical importance. A detailed discussion of primary phase growth, and in particular of dendrite growth, will be provided in the following sections.

 

رشد ورقه های گرافن روی نانوسیم های سیلیکا با دانسیته بالا

Catalyst-free approach for growth of graphene sheets on

high-density silica nanowires byCVD

روش بدون کاتالیزور برای رشد ورقه های گرافن روی نانوسیم های سیلیکا

با دانسیته بالا توسط CVD 

ABSTRACT

A novel “two-step annealing” method is proposed for the direct synthesis of graphene sheets on high-density dielectric silica nanowires without using metal catalysts. During the first annealing at 1000 °C, the extremely thin SiO2 layer on Si substrate shrinks and forms dense nanoparticles. Using these silica nanoparticles as templates, graphene sheets and silica nanowires are synthesized simultaneously after the second annealing process at 800–850 °C. The experiment results suggest that the graphene sheets grow along the nanowires and its crystalline quality and domain size are determined by the temperature and duration of the second annealing process.

 

طیف سنجی تبدیل فوریه فروسرخ ( FTIR )

FTIR - fourier transform infrared spectroscopy

طیف سنجی تبدیل فوریه فروسرخ ( FTIR )

ABSTRACT

The physical principles underlying infrared spectroscopy have been appreciated for more than a century. As one of the few techniques that can provide information about the chemical bonding in materials , it is particularly useful for the nondestructive analysis of solids and thin films, for which there are few alternative methods. Liquids and gases are also commonly studied , more often in conjuction with other techniques. Chemical bonds vary widely in their sensitivity to probing by infrared techniques.

 

خوردگی حفره‌ای در جوش فلزات فولاد ضد زنگ سوپر دوبلکس

Effects of Heat Input on Pitting Corrosion in

Super Duplex Stainless Steel Weld Metals

اثر حرارت ورودی بر خوردگی حفره‌ای در جوش فلزات فولاد ضد زنگ سوپر دوبلکس

ABSTRACT

Due to the difference in reheating effects depending on the heat input of subsequent weld passes, the microstructure of the weld metal varies between acicular type austenite and a mixture of polygonal type and grain boundary mixed austenite. These microstructural changes may affect the corrosion properties of duplex stainless steel welds. This result indicates that the pitting resistance of the weld can be strongly influenced by the morphology of the secondary austenite phase. In particular, the ferrite phase adjacent to the acicular type austenite phase shows a lower Pitting Resistance Equivalent (PRE) value of 25.3, due to its lower chromium and molybdenum contents, whereas the secondary austenite phase maintains a higher PRE value of more than 38. Therefore, it can be inferred that the pitting corrosion is mainly due to the formation of ferrite phase with a much lower PRE value.

 

بازیافت پلیمرهای تقویت شده با الیاف

Current status of recycling of fibre reinforced polymers:

Review of technologies, reuse and resulting properties

وضعیت فعلی بازیافت پلیمرهای تقویت شده با الیاف:

مروری بر روش‎ها، استفاده‎ی مجدد و خواص نهایی

ABSTRACT

A complete review of the different techniques that have been developed to recycle fibre reinforced polymers is presented. The review also focuses on the reuse of valuable products recovered by different techniques, in particular the way that fibres have been reincorporated into new materials or applications and the main technological issues encountered. Recycled glass fibres can replace small amounts of virgin fibres in products but not at high enough concentrations to make their recycling economically and environmentally viable, if for example, thermolysis or solvolysis is used. Reclaimed carbon fibres from high-technology applications cannot be reincorporated in the same applications from which they were recovered, so new appropriate applications have to be developed in order to reuse the fibres. Materials incorporating recycled fibres exhibit specific mechanical properties because of the particular characteristics imparted by the fibres. The development of specific standards is therefore necessary, as well as efforts in the development of solutions that enable reusers to benefit from their reinforcement potential. The recovery and reuse of valuable products from resins are also considered, but also the development of recyclable thermoset resins. Finally, the economic and environmental aspects of recycling composite materials, based on Life Cycle Assessment, are discussed.

 

فشار انفجاری لوله‎های فولاد زنگ‎نزن تحت کشش، فشار و دمای بالا

Burst pressure of super duplex stainless steel pipes subject to

combined axial tension, internal pressure and elevated temperature

فشار انفجاری لوله‎های فولاد زنگ‎نزن ابردوتایی در معرض سه مشخصه‎ی

کشش محوری ترکیبی، فشار داخلی و دمای بالا

ABSTRACT

The burst pressure of super duplex stainless steel pipe is measured under combined internal pressure, external axial tension and elevated temperature up to 160 °C. The experimental results are compared with existing burst pressure prediction models. Existing models are found to provide reasonable estimate of the burst pressure at room temperature but significantly over estimate the burst pressure at elevated temperature. Increasing externally applied axial stress and elevated temperature reduces the pressure capacity.

 

رفتار یک لوله‌ی فولاد زنگ نزن دوفازی با جوش‌کاری محیطی تحت فشار خارجی

Behavior of a girth-welded duplex stainless steel pipe underexternal pressure

رفتار یک لوله‌ی فولاد زنگ نزن دوفازی با جوش‌کاری محیطی تحت فشار خارجی

ABSTRACT

This study attempts to investigate the effects that external pressure has on the residual stress behavior in a girth-welded duplex stainless steel pipe. At first, FE simulation of the pipe girth welding is performed to identify the weld-induced residual stresses and depressions using sequentially coupled three-dimensional (3-D) thermo-mechanical FE formulation. Then, 3-D elastic–plastic FE analysis is carried out to evaluate the residual stress redistributions in the girth-welded pipe under external pressure. The residual stresses and plastic strains obtained from the thermo-mechanical FE simulation are employed as the initial condition for the analysis. The FE analysis results show that the hoop compressive stresses induced by the external pressure significantly alter the hoop residual stresses in the course of the mechanical loading, i.e. the hoop residual stress distributions on both surfaces of the pipe weld shift downward considerably, whilst the axial residual stresses are little affected by the superimposed external pressure.

 

تاثیر عناصر آلیاژی بر ریزساختار و خواص شکست غلتک‌های فولادی تندبر

Effects of alloying elements on microstructure and fracture properties of cast high speed steel rolls

Part I: Microstructural analysis

تاثیر عناصر آلیاژی بر ریزساختار و خواص شکست غلتک‌های فولادی تندبر

بخش اول: آنالیز ریزساختاری

ABSTRACT

A study was made of the effects of alloying elements on microstructural factors of six high speed steel (HSS) rolls manufactured by centrifugal casting method. Particular emphasis was placed on the role of hard carbides located along solidification cell boundary and the type of the martensite matrix. Microstructural observation, X-ray diffraction analysis, and hardness measurement were conducted on the rolls to identify carbides. Various types of carbides were formed depending on the contents of strong carbide forming elements. In the rolls containing the high Cr content, MC carbides inside cells and M7C3 carbides along cell boundaries were primarily formed, while in the rolls containing the high W and Mo contents, MC carbides inside the cells and fibrous M2C carbides in the intercellular regions were dominantly formed. The most important microstructural factor affecting overall roll hardness was the intercellular carbides and their distribution. The effects of alloying elements were analyzed on the basis of the liquidus surface diagram, suggesting that the proper contents of carbon, tungsten, molybdenum, chromium, and vanadium were 1.9–2.0, 3–4, 3–4, 5–7, and 5–6%, respectively.

 

سینتیک استحاله های مارتنزیتی در فولادها

Kinetics of martensite transformations in steels

سینتیک استحاله های مارتنزیتی در فولادها

ABSTRACT

Dislocation theory of the mechanism and kinetics of martensitic transformation has provided a foundation for the prediction of constitutive relations for transformation plasiticity. Application to the control of stress-state dependent shaping of stress–strain behavior has demonstrated substantial improvements in uniform ductility and ductile fracture toughness. The advance of such predictive science continues to play a central role in the new enterprise of science-based materials design.

 

تولید، خواص و قابلیت‌های گرافن Production, properties and potential of graphene

Production, properties and potential of graphene

تولید، خواص و قابلیت‌های گرافن

ABSTRACT

This review on graphene, a one-atom thick, two-dimensional sheet of carbon atoms, starts with a general description of the graphene electronic structure as well as a basic experimental toolkit for identifying and handling this material. Owing to the versatility of graphene properties and projected applications, several production techniques are summarized, ranging from the mechanical exfoliation of high-quality graphene to the direct growth on carbides or metal substrates and from the chemical routes using graphene oxide to the newly developed approach at the molecular level. The most promising and appealing properties of graphene are summarized from an exponentially growing literature, with a particular attention to matching production methods to characteristics and to applications. In particular, we report on the high carrier mobility value in suspended and annealed samples for electronic devices, on the thickness-dependent optical transparency and, in the mechanical section, on the high robustness and full integration of graphene in sensing device applications. Finally, we emphasize on the high potential of graphene not only as a post-silicon materials for CMOS device application but more ambitiously as a platform for post-CMOS molecular architecture in electronic information processing.