Product Description
10.1 The Effect of Die Temperature and Wax Temperature on Cavitation in Wax Patterns (published year - 1959)
10.2 The Relationship of Pressure and Temperature on the Amount and Type of Cavitation (published year - 1959)
10.3 Formulation, Preparation and Properties of Waxes For Wax Patterns
10.4 Some Notes on Waxes for Investment Casting (ICI Technical Activities Committee Report) (published year - 1964)
10.5 Pressurizing Wax Injection Machines - ICI Technical Seminar (published year - 1964)
10.6 Spot Cooling of Investment casting Dies - ICI Technical Seminar (published year - 1964)
10.7 Quality Control In Wax Assemblies - ICI Technical Seminar (published year - 1964)
10.8 Quality of Wax Patterns as a Function of Wax Preparation and Injection
10.9 Computer-Aided Determination of Technological Time of Solidification of Wax Patterns
10.10 On Cost Reduction and Process Improvement by Use of In-House Reclaimed Foundry Wax (published year - 1977)
10.11 High Speed Motion Picture Analysis of the Wax Injection Process
10.12 Shrink Allowance for Pattern Dies in Investment Casting (published year - 1979)
10.13 Soluble Wax Cores in the Wax Department (published year - 1979)
10.14 Wax Pattern Dimensional Variation in Automatic Injection Machines (published year - 1979)
10.15 Standardized Wax Testing Die
1980 10.16 Automation Beyond the Shell Room (published year - 1980)
10.17 Development of non-shrinking wax and machinery for its use (published year - 1983)
10.18 MPI's 30 ton wax and ceramic injector and 40 gallon melting, tempering, and transfer unit (published year - 1983)
10.19 Using micro-computer programmable computers (published year - 1983)
10.21 Formulating pattern waxes (published year - 1984)
10.22 Urea patterns & formulations (published year - 1984)
10.23 Reclaiming pattern waxes (published year - 1984)
10.24 MPI model 44 fully automatic wax injector (published year - 1985)
10.26 Wax Updates (published year - 1985)
10.27 Technical analysis of formulations & performances (published year - 1990)
10.28 Dimensional control DOE evaluation (published year - 39th)
10.29 Wax cooling at injection (published year - 40th)
10.30 Reclamation/reconstitution of wax (published year - 40th)
10.31 Comparison of new Cerita formulation (published year - 22nd Euro)
10.32 Flow and pattern deformation (published year - 1993)
10.33 Wax reclamation (published year - 1993)
10.34 High Level Computer Control Wax Injectors (published year - 1993)
10.35 Mechanical Properties of Pattern Waxes (published year - 1995)
10.36 Water-Soluble Sand Cores for Investment Casting (published year - 1995)
10.37 Influence of Injection Parameters to the Dimensional Stability of Wax Patterns (published year - 1996)
10.38 Factors Affecting Investment Casting Die Dimensions (published year - 19970
10.39 Revolution in Pattern Wax (published year - 1997)
10.40 The Effects of Fillers on the Physical Properties of Investment Casting Waxes (published year - 1998)
10.41 Wax, Wax Assembly and Shell - The Elements of Efficient Dewax (published year - 1998)
10.42 Analysis of the Implementation of a Process for Wax Recycling (published year - 1998)
10.43 Assessment of Properties of Investment Casting Waxes (published year - 24th BICTA)
10.44 The Effect of Fillers on the Physical Properties of Investment Casting Waxes
10.45 The Analysis of Ash in Wax (published year - 1999)
10.46 Process Control for Pattern Production (published year - 2000)
10.48 Liquid Forming of crystaline Pattern Material for Investment Casting (published year - 2000)
10.49 HSC - Milled Wax Patterns (published year - 2000)
10.50 The Reclaimation of Investment Casting Waxes (published year - 2000)
10.51 PLASTIC INJECTION METHODOLOGIES AND THEIR APPLICATION IN WAX INJECTION (published year - 2000)
10.52 DIMENSIONAL ISSUES WITH INVESTMENT CASING PATTEERS MADE BY STEREOLITHOGRAPHY (published year - 2000)
10.53 MATERIAL PROPERTIES FOR PREDICTING WAX PATTERN DIMENSIONS INVESTMENT CASTING (published year - 2000)
10.55 Quality in the Production of Wax Pattern
10.56 INJECTION MOULDING OF WAX PATTERNS: USING COMPUTATIONAL FLUID DYNAMICS AND FLOW VISUALISATION TO UNDERSTAND FILLING BEHAVIOUR
10.57 THERMAL EXPANSION OF INVESTMENT CASTING PATTERN WAX (published year - 2001)
10.58 DETERMINING WAX PATTERN DIMENSIONS IN INVESTMENT CASTING USING VIOSCOELASTIC MODELS
10.59 An Overview of the Rheology of Investment Casting Waxes (published year - 2001)
10.60 SIGNIFICANT PRODUCTIVITY IMPROVEMENTS FROM SOLID WAX INJECTION TECHNOLOGY AND ACCOMPANYING AUTOMATION (published year - 2001)
10.61 INFLUENCE OF TOOL DESIGN AND PROCESS PARAMETERS ON WAX PATTERNS (published year - 2002)
10.62 WAX CHARACTERIZATION (published year - 2002)
10.63 WAX TERMPERATURE CONTROL AND ITS EFFECTS ON YOUR CASTING THROUGHPUT (published year - 2002)
10.64 Casting Applications For Reclaimable Polymorphic Fillers (published year - 2003)
10.66 TESTS FOR DETERMINING VISCOELASTIC PROPERTIES OF INVESTMENT CASTING WAXES (published year - 2004)
10.67 "PROCESS CONTROL FOR INVESTMENT WAX MANUFACTURING " (published year - 2004)
10.68 The Benefits of Wax Recycling in an investment Casting Foundry (published year - 2004)
10.69 The Characterization of Casting Wax Rheology (published year - 2005)
10.70 Advances in Wax Recycling Technology (published year - 2005)
10.71 Continuous Improvement Opportunities in the Wax Room (published year - 2005)
10.72 Knowing Your Investment Casting Process (published year - 2006)
10.73 Shell Mold Investment Casting Process Using Ice Patterns (published year - 2006)
10.74 The Next Generation Pattern Material (published year - 2006)
10.75 Improvements in the Wax Room: Soluble Wax (published year - 2007)
10.76 Gage R&R on Wall Thickness Features in Wax Patterns (published year - 2007)
10.77 Water Soluble Cores for Investment Castings (published year - 2007)
10.78 Casting Yields are Improved through Automation and Process Control in the Wax Room (published year - 2008)
10.79 Profits through Education (published year - 2009)
10.80 Elastic Behavior of Pattern Waxes (published year - 2009)
10.81 Foundry Case Study: Using an Advanced Pattern Material, FOPAT in Place of Wax (published year - 2010)
10.83 Characterization of Low Density Polymer Pattern for Large Steel Investment Casting (published year - 2011)
10.84 A Robust Solvency Power Test for Determining End Life of Pattern Washes (published year - 2012)
10.85 Digital Technology in the Wax Room (published year - 2012)
10.86 Kinetics vs Thermodynamics: How Equilibrium States are Established in Investment Casting Waxes (published year - 2012)
10.87 Application of Dynamical Mechanical Analysis and Rheometry for Measuring Dwell Time in Fast Form Pattern Wax (published year - 2013)
10.88 Introduction of RENEW Wax Technology (published year - 2013)
10.89 The Evolution of Pattern Wax Cleaners (published year - 2014)
10.90 Water Soluble Cores for Aluminum Investment Castings (published year - 2015)
10.91 Innovative Test Methods for Wax (published year - 2015)
10.92 Current Problems in the Wax Room and How They Are Best Overcome (published year - 2015)
10.93 Update on Non-Filled Pattern Wax (published year - 2016)
10.95 Low Volume Automation, Challenges and Advantages (published year - 2016)
10.96 Process Improvement in the Wax Room with SOLUCORE Plus J23 Soluble Core Wax (published year - 2016)
10.97 Next Generation Patterns (published year - 2018)
10.98 Investigating the Impact of Phase Change Direction on the Properties of Investment Casting Wax (published year - 2018)
10.99 Innovative Wax Design to Meet the Challenges Within the Investment Casting Industry (published year - 2018)
10.100 Pattern Cleaning (published year - 2021)
10.101 Study of Pattern Formulation Effects on Surface Energy Measurements (published year - 2022)
10.20 ICI test die informational panel report (published year - 1983)
17.03 Industry Viable Strategic Tooling Enablers for MRB (Material Review Board) Elimination (published year - 2020)
17.04 Rapid, Low Cost Tooling for Small Engine Castings (published year - 2021)
17.05 Advanced Plasma Coating of Wax Injection Molds - Eliminating Release Agents from the Investment Casting Process (published year - 2022)
18.02 A Comparison of 3d Printing Technologies Used to Make Investment Casting Patterns (published year - 2016)
18.06 Are Printed Patterns Viable for Production?
18.07 An Investigation into the Effect of Hollowing Printed Investment Casting Patterns to Reduce Shell Cracking in the Autoclave
18.08 Revolutionary Improvements for Investment Castings Through Application of 3D-Printed Ceramic Tooling and Process Aids
18.11 3D Printed Inserts and Mold Cavities That Can Be Used for Producing Wax Patterns
18.12 An Evaluation of Using a Low-Cost Printer for Prototype Investment Casting Patterns
18.13 Digitization & Automation of The Process of Printing Patterns for Investment Casting
18.16 Evaluation of a Low-Cost Material Extrusion Printer for Investment Casting Applications
