Low-temperature heat capacity and thermodynamic properties of InSe

The heat capacity of InSe has been measured at temperatures from 11.14 to 325.26 K using an adiabatic calorimeter. The results differ significantly from earlier data (by ～2.2% at 200 K). The smoothed heat capacity data have been used to evaluate temperature-dependent thermodynamic functions (entropy, enthalpy increment, and reduced Gibbs energy) of indium selenide. Its thermodynamic properties under standard conditions are C _p ⁰ (198.15 K) = 49.43 ± 0.10 J/(K mol), S ⁰(298.15 K) = 82.20 ± 0.16 J/(K mol), H ⁰(298.15 K) ? H⁰(0) = 10.94 ± 0.02 kJ/mol, and Φ⁰(298.15 K) = 45.50 ± 0.09 J/(K mol). The Debye characteristic temperature of InSe evaluated from the heat capacity data is 275 ± 15 K.     

Investigation of the mechanical properties of welded joints between corrosion-resisting steel and titanium alloys

Summary

The purpose of this paper is to investigate the impact properties of weld metal produced under different welding conditions with special reference to electroslag welding (ESW) as a high heat input welding process generally applied in the fabrication of four‐sided thick‐plate box columns for general multi‐storey buildings. The paper focuses in particular on the impact properties of ESW weld metal at its centre (core (C)) and periphery (rim (R)). The results obtained may be summarised as follows:

1. The vE value of the weld metal core is lower than that of the weld metal rim. The absorbed energy transition temperature is also higher.

2. The vE values of the weld metal core and rim altered with a change in the welding heat input Q (varied at six levels in the 10.1 ～ 126.7 kJ/mm range), generally decreasing with an increasing heat input. The vE value of the core is lower than that of the rim. In the weld metal produced at the maximum heat input (126.7 kJ/mm), however, the core and rim have much the same vE values.

3. The vE value of the weld metal core shows little change with a change in the steel type (one type of TMCP and two types of SM490A), and remains at a low value. When there is a change in the surrounding gas (oxygen (O₂), air, and argon gas), the vE value decreases in an Ar, air, O₂ sequence.

4. The weld metal core vE value is little dependent on any change in the flux type (three types of fused flux) and weight of flux used (0.5 or 0.7 N).

5. The microstructural observations suggest that grain‐boundary ferrite (GBF) occurs at the coarse prior austenite grain boundaries of the rim, with fine acicular ferrite (AF) being mainly found trans‐granularly. In the core, grain‐boundary ferrite is formed at high density at the fine prior austenite grain boundaries, with massive polygonal ferrite (PF) being formed at high density transgranularly. There are thus distinct differences in the coarse ferrite morphology of the rim and core.

6. The SEM observations of the fracture surfaces suggest that the core weld metal has a large grain size, a feature corresponding to its low vE value. The observations made at the fracture surface periphery indicate that numerous secondary cracks are initiated in the grain‐boundary ferrite of the core, suggesting that the ferrite has a low toughness.

7. The results of the SEM simultaneous fractographic‐microstructural observations suggest that fracture selectively propagates along the grain‐boundary ferrite. This indicates that the low vE value of the core is due to the presence of high‐density grain‐boundary ferrite and massive transgranular polygonal ferrite.

     

A residual basis search algorithm of fault-tolerant programmable logic integrated circuits

This paper presents a search algorithm for the residual basis of field programmable gate arrays (FPGA), which improves the fault-tolerance of this class of chips. This algorithm is derived from analysis of the failure of the function table of basic structures and requires minor improvements of the existing FPGA architectures. The paper presents estimates of two schemes and a Markov model that allows the effectiveness of an algorithm to be determined.     

Raising the Properties of Steel 30KhGSA by Creating a Mixed Martensitic-Austenitic Structure

Metal Science and Heat Treatment - The structure and properties of steel 30KhGSA are studied after hardening by the quenching and partitioning (Q&P) process and, for comparison, by the...     

Effect of nature of fibrous substrate of composite membranes on their structure,conductive properties,and selectivity

The effect of fibers selected for investigation on the kinetics of synthesis and curing of the polymer matrix has been revealed; structural features of Polikon K materials formed on polyacrylonitrile, polyester, and novolac phenol–formaldehyde fibers have been studied; and the performance characteristics of the materials have been determined.     

Use of an Expert System for Synthesizing the Structure of a System for Transferring the Sizes of the Units of Physical Quantities

An approach is proposed to the construction of an expert system for solving the problem of the synthesis of a system for transferring the sizes of the units of physical quantities. A mathematical apparatus is developed which formalizes the decision making process.