Archives
June 2024
The effect of heat treatment on a 3D-printed PLA polymer’s mechanical properties
Three-dimensional printing is a useful and common process in additive manufacturing. The advantage of additive polymer technology is its rapidity and design freedom. Polymer materials’ mechanical properties depend on the process parameters and the chemical composition of the polymer used. Mechanical properties are very important in product applicability. The mechanical properties of polymers can be […]
Effects of the sintering process on Al2O3 composite ceramics
The sintering process can improve the microstructure of Al2O3 composite ceramics and enhance their comprehensive properties, but the effects of the sintering process on Al2O3 composite ceramics are still unclear. Herein, a novel Al2O3 composite ceramic was printed using the material extrusion and photo-polymerization combined process, and the final ceramic was obtained using one-step sintering […]
May 2024
Optimal fabrication of a thin-film thermocouple using Alumel/Chromel junctions
Thin-film thermocouple (TFTC) technology is a novel measurement method that produces a thermocouple sensor during the deposition process, even though it is a complex surface, to obtain the surface temperature. TFTC is a thin film sensor for measuring temperature by contact methods, consisting of two different metals that can generate thermoelectric forces named “Seebeck effects.” […]
Reducing time and cost of heat treatment post-processing of AM Ti6Al4V
The unique microstructure of Ti6Al4V produced through laser powder bed fusion (LPBF) displays high-tensile strength with low elongation in the as-built state. To obtain desired material properties that comply with standards for Ti6Al4V products, further post-processing is needed. Conventional practice prescribes that the required tensile properties can be achieved with time-consuming post-processing heat treatment of […]
April 2024
Ceramic fiber: High temperature insulation solution
Ceramic fiber is essential in various industries involving high-temperature operations. It offers superior thermal resistance for protecting structures, equipment, and machinery from steel and glass production to airplane and space vehicle manufacture. What is high temperature ceramic fiber? Ceramic fibers are synthetic materials comprised of small filaments made from high-purity aluminosilicate minerals. Thanks to their […]
Nitrogen gas quenching pressure effect on BS S155 alloy steel in vacuum furnace
The production of metal and alloy products requires the use of heat treatment. During the heat-treatment process, quenching is a crucial step. The quenching medium can be anything from water, a salt bath, oil, air and gas. In a vacuum furnace, pressurized gas, most frequently nitrogen (N2) gas, serves as one of the quenching mediums. […]
The role of photo chemical etching in thermal management
The photochemical etching (PCE) process is distinguished by its capacity to fabricate metal parts with unparalleled accuracy. This process sidesteps the typical stresses and deformations linked to conventional metalworking, such as stamping or laser cutting, which can compromise material integrity. Such fidelity is crucial in the manufacture of components for thermal management systems, where material […]
March 2024
Demand for forged parts spurs drive to rebuild, automate equipment
Today, global demand for rebuilt forging equipment is surging, driven in part by a dramatic rise in the need for military ordnance spurred by Russia’s invasion of Ukraine. As in past wars and conflicts, the demand for forged parts often increases as governments seek to replenish depleted stocks of artillery shells, tanks, aircraft parts, and […]
Experimental validation of high-spatial resolution of two-color optical fiber pyrometer
Taking non-contact temperature measurements in narrow areas or confined spaces of non-uniform surfaces requires high spatial resolution and independence of emissivity uncertainties that conventional cameras can hardly provide. Two-color optical fiber (OF) pyrometers based on standard single-mode (SMF) and multi-mode optical fibers (MMF) with a small core diameter and low numerical aperture in combination with […]
February 2024
Insulation paper: Exploring a versatile thermal solution
Insulation paper is a thin, flexible, high-temperature material used in industrial processing applications where heat management is critical. It provides thermal protection up to 3,000°F (1,600°C) and is easily adaptable to complex equipment geometries. With versatility, durability, and excellent thermal performance, insulation paper becomes an ideal insulation solution for furnaces, boilers, heat exchangers, automotive parts, […]
Experimental research of a small-scale industrial furnace with regenerative disc-flame burners
Regenerative combustion technology has many advantages such as fuel saving, high combustion efficiency and low emission, and it has been widely used for large-scale furnaces. However, when regenerative combustion technology is adopted for small-scale furnaces, many technical problems occur. In this article, a small-scale regenerative furnace with a heat load of 70-80 kW and primary […]
January 2024
Finite element modeling and simulation of vacuum brazing processes
Vacuum brazing is a black box process, so component distortion that occurs during heat treatment is difficult to prove experimentally. Thus, a novel FE-model was developed in ANSYS Workbench to calculate the time and location resolved component deformation of AISI 316L/B-Ni2 brazing assemblies. In this regard, a new method of radiation and contact modeling was […]
Case study: Improving cooling tunnel performance
The Mt. Holly, South Carolina, smelting facility of global producer Century Aluminum houses casting equipment to process nearly 230,000 metric tons of material into standard-grade ingot, HDC ingot, extrusion billet, and other products. As the first primary aluminum plant in the world to achieve the ISO 9001 Quality System Standard, Mt. Holly has the highest […]
Reimagining the steel production process
Steel has a major impact on everyone’s lives and our economy. It is crucial to cars, trucks, airplanes, buildings, and more. However, there is a significant issue with its production process. Globally, it accounts for a large percentage of greenhouse gas emissions from the industrial sector. The U.S. Department of Energy (DOE) recently announced $19 […]