Construction of Cutting Tool Life-cycle Information Management Platform

PurposeThe aim of this research is to examine if building information modelling (BIM) is feasible as an information management platform to determine a financially and environmentally affordable housing refurbishment solution based on the life cycle cost (LCC) and LCC calculation.Design/methodology/approachA case study in conjunction with BIM simulation approach using BIM tools (Autodesk Revit and IES VE/IMPACT) was adopted to identify the feasibility of BIM for the simultaneous formulation of LCC and life cycle assessment in housing refurbishment.FindingsThis research reveals that BIM is a suitable for the information management platform to enable construction professionals to consider trade-off relationship between LCC and life cycle assessment simultaneously, and determine the most financially and environmentally affordable refurbishment solution. The interoperability issues in data exchange among different BIM tools and unstandardized BIM object libraries with incomplete data sets of construction materials are recognised as the major shortcomings in a BIM system. Essential remedial actions to overcome the shortcomings in the current BIM tools are identified.Research limitations/implicationsActual housing information and various refurbishment materials for the BIM simulation are limited.Practical implicationsThis research contributes to supporting construction professionals to prepare practical BIM adoption for the integration of the LCC and life cycle assessment that can significantly improve early decision-makings on sustainable housing refurbishment.Originality/valueThis research will contribute to providing proper remedial actions to overcome the shortcomings in the current BIM tools, and insights for construction professionals to understand the implication of BIM-embedded housing refurbishment.

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Data Life Cycle and Information Management - A Data Driven Road Map for Enterprise Decision Making

Proceedings of the Water Environment Federation ◽

10.2175/193864718823774093 ◽

2018 ◽

Vol 2018 (1) ◽

pp. 712-723

Author(s):

Aditya Ramamurthy

Keyword(s):

Decision Making ◽

Life Cycle ◽

Information Management ◽

Data Driven ◽

Road Map ◽

Data Life Cycle

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Application of Cr,Mo-(Cr,Mo,Zr,Nb)N-(Cr,Mo,Zr,Nb,Al)N multilayered composite multicomponent coating to increase the cutting tool life in turning steel

Procedia CIRP ◽

10.1016/j.procir.2021.02.030 ◽

2021 ◽

Vol 101 ◽

pp. 274-277

Author(s):

Alexey Vereschaka ◽

Marina Volosova ◽

Nikolay Sitnikov ◽

Filipp Milovich ◽

Nikolay Andreev ◽

...

Keyword(s):

Tool Life ◽

Cutting Tool ◽

Multilayered Composite ◽

Multicomponent Coating

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Research on Designing the Information Management Platform of Physical Education Based on B/S Model

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.989-994.5481 ◽

2014 ◽

Vol 989-994 ◽

pp. 5481-5485

Author(s):

Guo Ying Wang

Keyword(s):

Physical Education ◽

Information Management ◽

Central Processor ◽

Communication Interface ◽

Information Platform ◽

Management Platform ◽

Central Processor Unit ◽

Framework Model ◽

Processor Unit ◽

S Model

This paper, by using multi-layer B/S framework model, combines with VB programming to carry out innovative design of physical education (PE) platform, which has got the B/S framework platform of PE management. PE information management platform mainly comprises the teacher end, the central processor unit (CPU) and the student end, where the communication interface mainly comprises the editor and the computer, and the input of teacher end includes the computer buttons, sensors, and so on. While for the core parts of the system, they are the CPU and the memory demonstrated by PE. Student end through the I/O expansion function analyzes and displays the teaching sound and video signal displayed by using LED or LCD. Finally, the paper designs the data analysis and transfer function of PE information platform, and obtains the curve of information throughput with time changing, which provides a new computer method for the research of PE.

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The Effect of Cutting Tool Material and Edge Geometry on Tool Life and Workpiece Surface Integrity

Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering Manufacture ◽

10.1243/095440506x78192 ◽

2006 ◽

Vol 220 (2) ◽

pp. 93-107 ◽

Cited By ~ 57

Author(s):

J I Hughes ◽

A R C Sharman ◽

K Ridgway

Keyword(s):

Tool Life ◽

Surface Integrity ◽

Cutting Tool ◽

Tool Material ◽

Workpiece Surface ◽

Edge Geometry

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Model for Optimization of the Tool Life and the Cutting Speed for Maximum Productivity at Drilling of the Steel 2NiCr185

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.760.433 ◽

2015 ◽

Vol 760 ◽

pp. 433-438 ◽

Cited By ~ 3

Author(s):

Ovidiu Blăjină ◽

Aurelian Vlase ◽

Marius Iacob

Keyword(s):

Mathematical Model ◽

Stainless Steel ◽

Tool Life ◽

Stainless Steels ◽

Cutting Tool ◽

Cutting Speed ◽

Research Directions ◽

Maximum Productivity ◽

Optimum Cutting ◽

New Research

The research in the last decade regarding their cutting machinability have highlighted the insufficiency of the data for establishing of the optimum cutting processing conditions and the optimum cutting regime. The purpose of this paper is the optimization of the tool life and the cutting speed at the drilling of the stainless steels in terms of the maximum productivity. A nonlinear programming mathematical model to maximize the productivity at the drilling of a stainless steel is developed in this paper. The optimum cutting tool life and the associated cutting tool speed are obtained by solving the proposed mathematical model. The use of this productivity model allows greater accuracy in the prediction of the productivity for the drilling of a certain stainless steel and getting the optimum tool life and the optimum cutting speed for the maximum productivity. The obtained results can be used in production activity, in order to increase the productivity of the stainless steels machining. Finally the paper suggests new research directions for the specialists interested in this field.

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Current Progresses of Laser Assisted Machining of Aerospace Materials for Enhancing Tool Life

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.690-693.3359 ◽

2013 ◽

Vol 690-693 ◽

pp. 3359-3364

Author(s):

Shou Jin Sun ◽

Milan Brandt ◽

John P.T. Mo

Keyword(s):

Tool Life ◽

Cutting Tool ◽

State Of The Art ◽

Aerospace Industry ◽

Cutting Temperature ◽

Machining Process ◽

Metallic Materials ◽

Aerospace Materials ◽

Beam Position ◽

Laser Assisted Machining

A higher strength and heat resistance are increasingly demanded from the advanced engineering materials with high temperature applications in the aerospace industry. These properties make machining these materials very difficult because of the high cutting forces, cutting temperature and short tool life present. Laser assisted machining uses a laser beam to heat and soften the workpiece locally in front of the cutting tool. The temperature rise at the shear zone reduces the yield strength and work hardening of the workpiece, which make the plastic deformation of the hard-to-machine materials easier during machining. The state-of-the-art, benefits and challenges in laser assisted machining of metallic materials are summarized in this paper, and the improvement of tool life is discussed in relation to laser power, beam position and machining process parameters.

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