Search or ask a question

What is the best alloy rim cleaner?

Answers from top 8 papers

PDF

Open Access

More filters

Papers (8)	Insight
Proceedings Article•DOI A Novel Method for Wheel Rim Recognition Guan Xu, Jian Su, Hongda Pan, Donglin Zhang - Show less +3 more 03 Aug 2008 14 Citations	The experimental results show that the proposed method recognizes the wheel rim efficiently and precisely.
Journal Article•DOI Properties of titanium carbonitride matrix cermets Houan Zhang, Jianhui Yan, Xin Zhang, Siwen Tang - Show less +3 more 01 May 2006-International Journal of Refractory Metals & Hard Materials 48 Citations	This is because of its microstructure with a finer and more dispersive hard phase and thinner rim.
Journal Article•DOI Grafting the alar rim: application as anatomical graft. Ronald P. Gruber, Paige M. Fox, Anne Warren Peled, Kyle A. Belek - Show less +3 more 01 Dec 2014-Plastic and Reconstructive Surgery 18 Citations	The concept of grafting the alar rim is strongly supported by the authors’ results.
Journal Article•DOI Polyurea RIM-A Versatile High Performance Material: R. A. Grigsby, R. J. G. Dominguez - Show less +1 more 01 Apr 1986-Journal of Elastomers and Plastics 8 Citations	Amine-terminated polyether resins, or polyether polyamines, can replace the polyol in a RIM formulation.
Open access•Proceedings Article•DOI Retrieval & Interaction Machine for Tabular Data Prediction Jiarui Qin, Weinan Zhang, Rong Su, Zhirong Liu, Weiwen Liu, Ruiming Tang, Xiuqiang He, Yong Yu - Show less +7 more 14 Aug 2021 13 Citations	Experimental results show that RIM achieves significant improvements over the state-of-the-art and various baselines, demonstrating the superiority and efficacy of RIM.
Book Chapter•DOI Static Structural Analysis of Car Rim by Finite Element Method Suraj L. Gondhali, Atul D. Dhale, Sunil Pagare - Show less +2 more 01 Jan 2019 4 Citations	By analysing the results, suitable material rim design is proposed which gives optimum results based on strength, weight, cost and durability criteria.
Open access•Journal Article•DOI The influence of wheel/rail contact conditions on the microstructure and hardness of railway wheels. Paul Molyneux-Berry, Claire Davis, Adam Bevan - Show less +2 more 16 Jan 2014-The Scientific World Journal 30 Citations	It is shown that the hardness of an “in-service” wheel rim varies significantly, with three distinct effects.
Journal Article•DOI Polyurea RIM-A Versatile High Performance Material: R. A. Grigsby, R. J. G. Dominguez - Show less +1 more 01 Apr 1986-Journal of Elastomers and Plastics 8 Citations	The use of amine-terminated polyether products in RIM applications brings a new dimension to the RIM process.

My columns

Related Questions

What toilet cleaner works best?5 answersThe best toilet cleaner depends on the specific requirements and preferences of the user. One option is the electric toilet cleaner invented by Wang Meihang, which features disc brushes, motors, and adjustable angles for thorough cleaning. Another option is the neutral toilet cleaner prepared by Zhang Shilin et al., which is a neutral product with strong decontamination ability for removing fouling. Yan Mingdong's flush toilet cleaner is effective in removing water scales and dirt without damaging the ceramic glaze surface of the toilet. For controlled release cleaning, Yan Yang's membrane controlled toilet cleaner allows for adjustable release speed and is refillable and reusable. Lastly, Zhang Dongmei's high-efficiency cleanser for the toilet combines a nonionic surfactant, inorganic acid, and thickening agent for mild decontamination and effective bacteria removal. Each of these toilet cleaners has its own advantages and can be considered based on individual needs and preferences.

Can you clean battery corrosion with carb cleaner?6 answers

How do you keep alloy wheels clean?10 answers

What is best ceramic tile cleaner?7 answers

What is best cleaner for ceramic sinks?3 answers

Which is the best cleaning robot?9 answers

See what other people are reading

What are the Challenges in Aluminium 7XXX series alloys?

Challenges in Aluminum 7XXX series alloys include limited formability at room temperature, the presence of Precipitate-Free Zones (PFZs) along grain boundaries promoting intergranular fracture, and the need to enhance corrosion resistance while maintaining strength. Additionally, optimizing heat treatment processes, such as solid solution, quenching, and aging, is crucial to improve properties like strength, toughness, and hardenability. Moreover, in the aerospace industry, additive manufacturing processes face restrictions due to factors like lack of globally accepted certifications, fabrication speed, and limitations in achievable precision and micro-fatigue occurrence. Addressing these challenges through advancements in micro-alloying, aging precipitation sequences, and developing new heat treatment regimes is essential for enhancing the overall performance and application of Aluminum 7XXX series alloys.What are the experimental parameters that impact the friction and wear?

Experimental parameters that significantly impact friction and wear include factors like load, sliding velocity, sliding distance, material hardness, and specific wear rate. Studies have shown that these parameters play a crucial role in determining the friction coefficient and wear rate of materials. For instance, in the context of carbon fiber reinforced composites, sliding velocity, sliding distance, and load were found to have a notable influence on specific wear rate and coefficient of friction. Similarly, the experiments conducted on lubricated sliding contacts revealed that material hardness, applied load, and sliding duration affect the friction and wear behavior of the contact. These findings emphasize the importance of carefully controlling these experimental parameters to optimize the tribological performance of materials.What are the properties of recycled concrete aggregates when strengthened by different types of pozzolan slurry?

Strengthening recycled concrete aggregates (RCA) with various types of pozzolan slurry has shown significant improvements in properties. Studies have highlighted that treatments like pozzolan slurry with fly ash and cement enhance the mechanical properties of RCA, with an optimum replacement percentage of 60%. Additionally, combining gradation and chemical strengthening methods can effectively improve the mechanical properties and durability of RCA. Furthermore, utilizing a pozzolanic treatment slurry containing 15% cement and 5% rice husk ash (RHA) can produce concrete with characteristics similar to natural concrete aggregates, improving mechanical strength and water transport properties. These findings underscore the effectiveness of pozzolan slurry treatments in enhancing the properties of recycled concrete aggregates for sustainable construction practices.Can the selection of aggregate size be optimized to enhance the friction properties of pavement in different weather conditions?

The selection of aggregate size can indeed be optimized to enhance the friction properties of pavement in various weather conditions. Research indicates that the Aggregate Image Measurement System (AIMS) can effectively measure aggregate surface texture and angularity, aiding in determining suitable aggregates for friction purposes. Additionally, studies have shown that the maximum aggregate size (MAS) plays a crucial role in determining the stiffness and fatigue properties of fine-aggregate matrices (FAMs) in asphalt mixtures, with specific MAS values being more representative for fabricating FAM samples. Moreover, optimizing friction material formulations through a systematic approach can enhance the friction coefficient of commercial friction materials, contributing to improved pavement friction properties. Therefore, by carefully selecting and optimizing aggregate sizes based on research findings, pavement friction properties can be enhanced for better performance in diverse weather conditions.Is colagen good for bone?

Collagen is beneficial for bone health and regeneration. Studies have shown that collagen plays a crucial role in bone tissue integrity and can be utilized in various forms for bone-related applications. Research has highlighted the use of collagen in creating collagen/calcium phosphate complexes for bone cement, showcasing biocompatibility and strength. Additionally, collagen scaffolds, whether ordered or not, have demonstrated biocompatibility with bone cells, promoting adhesion, proliferation, and differentiation to an osteoblastic phenotype. Moreover, composite materials combining collagen with substances like mollusc shells have shown promising results for bone regeneration, with collagen nanofibrils enhancing homogeneity and acting as binders. Furthermore, collagen-hydroxyapatite composite materials have exhibited a strong interaction, making them suitable bone substitutes. Overall, collagen's role in bone health is well-supported by scientific evidence, making it a valuable component for bone regeneration and maintenance.How does drying affect electrode?

The drying process significantly impacts electrode properties in lithium-ion batteries. Drying temperature plays a crucial role, affecting binder distribution within the electrode coating. Higher temperatures lead to uneven binder distribution, while lower temperatures hinder binder diffusion, both influencing electrode performance. Optimal drying temperatures can enhance electronic conductivity and reduce ionic resistivity, crucial for cell properties. Near-infrared (NIR) radiation during drying can increase drying speed, electrode temperature, and adhesion force, offering advantages over convective drying. High drying rates may induce binder migration, impacting binder distribution throughout the electrode, emphasizing the need for informative in situ metrologies to understand the drying dynamics better. Ultrasound acoustic-based techniques provide insights into the dynamic drying process, aiding in achieving a more controllable electrode manufacturing process.What are the limitation of C3N4 in photocatalytic appliaction?

g-C3N4 faces limitations in photocatalytic applications due to factors such as low specific surface area, rapid carrier recombination, and unsatisfactory photocatalytic performance in practical scenarios. Efforts to enhance g-C3N4's photocatalytic performance have focused on improving its hydrogen bond network, which can facilitate proton transfer reactions and improve carrier transport rates, especially for holes. Additionally, the fast charge recombination phenomena and low surface area hinder the photocatalytic efficiency of g-C3N4, prompting research into synthesizing hierarchically porous structures to enhance light absorption and electrochemical kinetics for improved photocatalytic activity. These limitations highlight the need for further advancements in the design and synthesis of g-C3N4 photocatalysts to overcome these challenges and maximize their potential in photocatalytic applications.What are sp3 polymer dots?

SP3 polymer dots (Pdots) are a type of polymer dots that have been extensively studied for various applications such as catalysis, energy storage, light-emitting devices, biomedicine, and engineering. These Pdots can be synthesized through different methods, such as atomic transfer radical polymerization, resulting in unique properties like deep-blue luminescence and high sensitivity to specific metal ions like Fe3+. Additionally, Pdots can be functionalized to possess dual properties, such as fluorescence and magnetism, making them suitable for bioimaging applications. Moreover, P3HT Pdots have been developed as red-emitting fluorescent probes for intracellular bioimaging, showcasing excellent stability, low cytotoxicity, and good water dispersibility, making them promising for bioimaging applications. Overall, SP3 polymer dots represent a versatile and promising class of materials with diverse applications in various fields.How does temperature affect material properties of mortar?

Temperature significantly impacts the properties of mortar. High temperatures can lead to changes in mechanical properties, microstructure, and performance of mortars. For instance, exposure to high temperatures can increase the creep degree and rate of mortars, affecting their mechanical properties and microstructure. Additionally, elevated temperatures can cause deteriorations and cracks in mortars, leading to decreased mechanical properties. The temperature during casting also influences fresh properties, hydration kinetics, and early-age compressive strength of mortars. Mortars containing waste materials like iron oxide concentrate show improved strength and high-temperature resistance, with 30% addition maintaining 80% of initial strength at 450°C. Overall, temperature plays a crucial role in determining the behavior and durability of mortars.How does the microtopography of platinum surfaces affect hydrogen adsorption?

The microtopography of platinum surfaces significantly influences hydrogen adsorption. Different surface structures such as the on-top, bridge, and hollow positions on FCC (100) and FCC (111) surfaces of platinum exhibit varying interactions with hydrogen molecules, affecting their dissociation. Additionally, the stability and vibrational properties of adsorbed hydrogen atoms on Pt(100) surfaces differ based on their binding energies at bridge and top sites. Moreover, surface microstructure modulation techniques, like surface roughening and postfluorination, can enhance the efficiency of platinum catalysts for hydrogen isotope oxidation by creating amphiphobic surfaces, improving catalytic performance in wet environments with volatile organic compounds. These findings collectively highlight the crucial role of platinum surface microtopography in governing hydrogen adsorption behaviors.What is AZ91D Magnesium alloy?

AZ91D is a magnesium alloy known for its benefits such as better saltwater corrosion resistance, suitable castability, and good atmospheric stability. It is extensively used in various industries like transportation, aerospace, and medical sectors due to its good load-to-weight ratio, biocompatibility, and biodegradability. The alloy's high strength and poor plasticity make conventional rolling methods unsuitable for processing, necessitating modifications in alloying elements to enhance its processing plasticity. The microstructure of AZ91D significantly influences its mechanical properties, with the addition of alloying elements or changes in cooling rates enhancing its strength and formability properties. Furthermore, as-extruded AZ91D magnesium alloy processed by conventional extrusion exhibits superior mechanical properties attributed to ultra-fine grains, sub-micron precipitates, and strong texture.