Estudo da influencia do teor de niquel na usinabilidade de ligas Fe-Cr-Ni / Study of the nickel content influence in the machinability of Fe-Cr-Ni

Marques, Daniel Cirillo

27 February 2007

Orientador: Anselmo Eduardo Diniz / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecanica / Made available in DSpace on 2018-08-09T18:35:54Z (GMT). No. of bitstreams: 1 Marques_DanielCirillo_M.pdf: 1133787 bytes, checksum: 7116947050a42005d85657f4c29da1a2 (MD5) Previous issue date: 2007 / Resumo: O objetivo deste trabalho foi estudar a influência do teor de níquel de ligas FeCrNi na vida da ferramenta de metal duro em processo de torneamento em acabamento. Para este estudo foram preparadas ligas com composição básica 18%Cr-0,01%C-0,2%Si-0,4%Mn e com teores de níquel variados (0, 10, 20, 30, 40, 50 e 60%). A medida que o teor de níquel subia, o teor de ferro diminuía na mesma proporção. Os ensaios foram realizados com pastilhas de metal duro classe M15 revestidas com TiC/Al2O3/TiN. Todos os materiais foram usinados nas mesmas condições (vc = 230 m/min, ap = 0,6 mm e f = 0,1 mm/volta), garantindo assim, como única fonte de variação, o teor de níquel. Os resultados mostram que a vida da ferramenta diminui com o aumento do teor de níquel e que o principal mecanismo de desgaste da ferramenta é a adesão e arrancamento de partículas da ferramenta. Uma exceção se deu com o material com 30% de níquel, que apesar de apresentar o mesmo mecanismo de desgaste, mostrouse mais fácil de usinar, gerando maior tempo de vida da ferramenta / Abstract: The aim of this work was to study the influence of nickel content in FeCrNi alloys on the coated cemented carbide tool life during the finish turning process. For this purpose 18%Cr-0,01%C-0,2%Si-0,4%Mn base composition and variable nickel content (0, 10, 20, 30, 40, 50 and 60 weight %) alloys were prepared. As the nickel content increased, the iron content decreased in the same proportion. Tests were carried out with coated cemented carbide inserts, M15 class with TiC/Al2O3/TiN coating. All alloys were machined on the same cutting conditions (vc = 230 m/min, ap = 0,6 mm and f = 0,1 mm/rev), in order to set nickel content as the only input variable. Results indicate that tool life decreases with the growth of nickel content, and the mainly tool wear mechanism is attrition. An exception was the material with 30% of nickel, that presented the same tool wear mechanism but showed out higher machinability, allowing longer tool life / Mestrado / Materiais e Processos de Fabricação / Mestre em Engenharia Mecânica

Metais - Usinabilidade

Aço inoxidável

Ligas de niquel

Ferramentas para cortar metais

Stainless steels

Tool wear

Machinability

Fe-Cr-Ni alloys

INVESTIGATION OF CHIP-FORM AND TOOL-WEAR IN TURNING OF HARDENED AF9628 ALLOY UNDER VARIOUS COOLING AND LUBRICATION CONDITIONS

Wolf, Jason

01 January 2019

Next generation defense and commercial applications for structural steels require new alloys that eliminate or reduce critical elements from their composition to lower cost and improve manufacturability, while maintaining or exceeding high strength and toughness requirements. A new alloy, denoted as AF9628, has recently been developed for this purpose and its manufacturing characteristics and the material response in component manufacturing must be fully understood. In the present study, hardened AF9628 alloy was turned with a coated carbide cutting tool under fixed cutting speed, feed rate, and depth of cut parameters. This work focuses on chip-form and tool-wear analysis to understand, for the first time with AF9628, these fundamental aspects of the turning process and their relationship to productivity and part quality. Current industry standard practice of flood-cooled machining for AF9628 was used during machining experiments. Dry, minimum quantity lubrication (MQL), and cryogenic machining were investigated as alternative cooling and lubrication conditions. High-speed imaging during AF9628 turning experiments provides a new insight into the chip formation process, while the use of optical microscopy and scanning white light interferometry allowed for further characterization of chip-form and tool-wear. Chip-form is favorable as short, arc-shaped chips with new tools under all of the tested cooling and lubrication conditions. As a result of rapid wear at the end of the tool-life in all of the experimental conditions, chip-form evolves to unfavorably long, snarled ribbon-like chips and the resultant cutting force increased by as much as 64% under flood-cooled conditions. Tool-wear types that were observed during experiments include a combination of nose wear, built-up edge, plastic deformation, and groove wear on the rake face. Due to the fixed cutting parameters and cutting tool selected for this study, which were designed for flood-cooled machining in a prior study, undesirable failure of the cutting tools under dry, MQL, and cryogenic machining occurred. Future work requires experimentation across a wider processing space, and with different cutting tools, to thoroughly evaluate alternative cooling and lubrication techniques for machining AF9628.

Chip-form

Tool-wear

Machining

High-strength Low-alloy Steel

Cooling and Lubrication

Industrial Engineering

Manufacturing

Materials Science and Engineering

Tribology

Analýza opotřebení nástrojů při CNC obrábění diskovitých součástí / Wear of cutting tools at CNC production of the disc-shaped parts

Malý, Michal

January 2019

This diploma thesis evaluates two competitive cutting inserts for machining of disk-shaped blanks. The first part summarizes theoretical knowledge of turning, wear of cutting inserts and cost analysis of the cutting process. In the second part, the wear of two inserts from a different manufacturer is observed in two different cutting speeds. Wear is evaluated by electron microscope images. In the end, there is an economic evaluation of both VBD in different cutting speeds for serial production.

Řezné síly při vrtání vláknově vyztužených kompozitů / Cutting forces when drilling fibre reinforced composites

Režný, Tomáš

January 2009

This master´s thesis is focused on fibre–filled composite materials, their distribution, labeling, usage, development and production. The aim of this work is complex processing of acquired technical knowledge, and evaluation of technological rehearsals of drilling composite materials which are reinforced by glas fiber and prepreg in terms of the impact of the machined material, wor-king conditions and the tool, and its wear to the feed force value and torque.

Technologické a ekonomické parametry řezného nástroje / Technological and economical parameters of a cutting tool

Drda, David

January 2009

Aim master´s thesis is analyzed technological and economical parameters of cutting tool. Firstly there are the parameters cutting tool, cutting wear, economical parameters and costs on running tools specified. In the conclusion there are reach technological and economical parameters of cutting tools analyzed and tested on practical sample. The sample is part of attachments in form programme on calculation in Excel, together with evaluation by means of graphs.

Vytvoření databázové aplikace pro zkoušky obrábění u zákazníka / Creation of machining tests database applications at customer

Reichman, Ladislav

January 2011

This master's thesis summarizes information about the machining tests. The thesis describes the mechanisms and forms of cutting tool wear. Part of the thesis is analysis of the current state of Pramet Tools Company machining tests database application. The result of the thesis is complete new database application design.

Analýza vlivu obráběného materiálu na opotřebení a trvanlivost nástroje / Analysis of material to be machined influence on the wear and tool durability

Tolkner, Josef

January 2012

Machining technology is a multi disciplinary field, and together with the economy are playing always more important role in the success of the enterprise market products and services. Recent studies show that it requires very close link between technology, management and information technology such as the integration process and production planning, simulation of manufacturing systems, production flexibility, virtual machines, control algorithms, etc. The key changes are based on the requirements for miniaturization of products, higher production accuracy, closer tolerances, better surface quality, part of weight reduction, reduction of lot size and reducing production costs. The report is focused on machining titanium alloys. In the theoretical part are presented the properties and the distribution of titanium alloys. In the practical part is then carried out an experiment aimed to influence the composition of workpiece material on tool wear. Experiment results and recommendations are listed at the end of this report.

Produktivní obrábění titanových slitin / Productive Machining of Titanium Alloys

Čejka, Libor

January 2013

The aim of the thesis is to analyze the production costs and optimize cutting conditions for high-feed face milling of titanium alloy Ti6Al4V. In the experiment were changed cutting conditions, such as cutting speed vc and feed speed vf. During the experiment were checked cutting forces by dynamometr. Furthermore, surface roughness and tool wear is observed.

Efektivní obrábění vláknově vyztužených kompozitních materiálů / Effective Machining Of Fiber Reinforced Composite Materials

Sedláček, Jan

January 2010

The objectives for this dissertation are to push forward the current state of knowledge in the area of machining fiber-reinforced plastic (FRP). The most common machining operation performed on these materials is drilling owing to the need for component assembly in mechanical pieces and structures. Among the defects caused by drilling, delamination appears as to be of the most critical and may occur at both the entrance and exit plane. A number of theoretical and experimental studies have been made to create an analytical model of delamination in composite laminates. In this dissertation, the critical thrust force (force which initiates the delamination) is predicted using linear elastic fracture mechanics - assuming Mode I. Delamination is investigated by studying the evolution of feed force and torque applied by the tool on the workpiece. A four components piezoelectric dynamometer KISTLER 9272 with special PC-software is used for measuring and evaluating of torque and cutting forces, when drilling two different composite materials: carbon/epoxy laminate fabricated by hand lay-up technique and glass/polyester composite made by pultrusion. Wear mechanisms and location of the wear on the tool are also investigated (with respect to cutting material). The tool wear is measured with help of a common workshop microscope and recorded with scanning electron microscope PHILIPS XL30. Drilling experiments are performed to give complex technical information (i.e. cutting conditions, tool geometry, tool wear and so on) which enables efficient machining of composite materials. Delamination-free drilling is given special emphasis in the experiments. Methods of statistical analysis (DOE) are used to determine which factors have the most influence on delamination.

Experimental simulation of gear hobbing through a face milling concept in CNC-machine

Hoseini, Saba

January 2013

No description available.

Gear hobbing

milling

machining

machinability

steel

induction hardening

carburizing

tool life

tool wear

Engineering and Technology

Teknik och teknologier