Outlook Back Issues Index
Back Issues are free and can be ordered by Name, Product and type of Metal.
To order a back issue of Outlook please send your request,
along with Volume name (i.e., V16N1) to Customer
Service.
A. by Company
| Advanced Metal Components, Inc.(AMCI) |
V16N1, V16N2
|
| Air Products and Chemicals |
V20N2
|
| Alaskan Copper Works |
V9N4
|
| Allegheny Ludlum Corporation |
V17N1, V17N3, V18N1, V18N2, V19N3, V23N3, V26N3&4, V27N3
|
| Allegheny Technologies Inc. |
V22N2, V23N3, V24N3, V26N1, V27N2, V29N4
|
| Allegheny Teledyne Incorporated |
V17N1, V17N3
|
| Allvac |
V19N1, V19N4
|
| American Society for Testing and Materials (ASTM) |
V19N4
|
| Anaconda Nickel |
V20N2
|
| Argonne, Oak Ridge |
V17N2
|
| ASM Inernational |
V26N2
|
| AstroCosmos |
V18N2, V21N3
|
| Astro Metallurgical |
V11N2
|
| ATI Defense |
V30N1&2
|
| ATI Engineered Products |
V29N4, V30N1&2, V30N3
|
| ATI Flat-Rolled Products |
V29N4
|
| ATI Long Products |
V29N4
|
| ATI Primary Metals and Exotic Alloys |
V29N4
|
| ATI Stellram |
V30N1&2
|
| Avtex Fibers |
V10N3
|
| Babcock & Wilcox |
V18N2
|
| Betz Dearborn |
V18N2
|
| Bignier Schmid-Laurent (BSL), France |
V16N4
|
| BP Amoco |
V20N2
|
| BP Chemicals |
V17N2
|
| BSL |
V18N2
|
| Brookhaven National Laboratory |
V1N3, V16N4
|
| Brown Fintube |
V22N1
|
| C&I Engineering |
V18N2
|
| Caldera Engineering |
V21N4
|
| Ceralox Corporation |
V9N4
|
| Cern |
V23N3
|
| Chemineer |
V18N2
|
| Cooperheat |
V17N4
|
| Cosmos Minerals |
V13N1
|
| CPDC |
V17N1
|
| CRI |
V18N2
|
| CTCI |
V17N1
|
| Deutches Electronen-Synchrotron |
V16N4
|
| DMC |
V18N2
|
| DOW Chemical |
V25N4
|
| DuPont |
V14N3, V24N1
|
| Duriron |
V14N1B
|
| Dynamic Machine Works |
V20N1
|
| Dynamic Materials Corp. |
V23N1
|
| European Aeronautic Defence and Space Company (EADS) |
V30N1&2
|
| EIML |
V25N3
|
| Ellett Industries, Ltd. |
V13N2, V17N4, V18N1, V18N2
|
| Endress+Hauser Flowtec AG |
V23N4
|
| Eskay |
V17N3
|
| ESP |
V4N1
|
| Esso Chemical |
V10N2
|
| Exxon |
V16N1
|
| F.B.M. |
V2N4
|
| First Mississippi Chemical/First Chemical |
V13N1, V18N1
|
| Foster Wheeler |
V20N2
|
| Gaspar |
V10N3
|
| General Atomics |
V17N2
|
| General Electric |
V20N2
|
| Gore |
V18N2
|
| Gulf Coast Ammonia Producers Association |
V19N4
|
| Gulf Coast Chemical |
V16N2
|
| H. C. Starck |
V18N2
|
| H. H. Howard Co., Chicago, IL |
V1N4
|
| Haynes |
V18N2
|
| High Energy Metals Inc. (HEMI) |
V24N2
|
| Hickham Industries |
V18N2
|
| Houston Advanced Research Center (HARC) |
V17N2
|
| ICF Kaiser |
V18N2
|
| ICI Australia |
V11N1
|
| Inco Engineered Products, UK |
V10N3
|
| Inco Limited |
V23N3
|
| Industrial Alloy Fabricators (IAF) |
V14N1, V15N1, V18N1
|
| INFN-GE |
V23N2
|
| Innovator |
V23N2
|
| International Hearth Melting (IHM) |
V19N3, V19N4
|
| International Titanium Association (ITA) |
V27N2
|
| Intrinsic Devices |
V23N4
|
| Iolar |
V25N4
|
| JNFL |
V19N2
|
| Joseph Oat Corporation |
V18N2
|
| Kemira |
V11N1, V23N1
|
| Kimre |
V18N2
|
| KTI Fish |
V18N2
|
| Kvaerner Chemetics |
V18N2
|
| Millennium Petrochemicals |
V18N2
|
| Mississippi Chemical |
V18N2
|
| Mitsui Engineering and Shipbuilding Co., Ltd. |
V18N3, V22N2
|
| Monsanto |
V17N2, V18N1, V20N2 |
| MOTOMAN |
V17N3
|
| NASA |
V28N2
|
| New England Electric Wire Corporation |
V16N4
|
| Nitinol Devices and Components (NDC). |
V16N3
|
| Nitinol Material Sales (NMS) |
V16N3
|
| Nitinol Technologies |
V22N2
|
| Nooter Corporation |
V1N1, V2N3, V7N2, V17N3, V18N2
|
| Northwest Technical Ind. (NTI) |
V15N2
|
| Oak Ridge National Laboratories |
V17N2
|
| Ohmstede |
V18N2
|
| Orange County Metal Works |
V18N4
|
| Oremet |
V19N1
|
| Outdoor Innovations |
V21N3
|
| Oxford Superconducting Technology |
V16N4
|
| Pacific Northwest National Laboratories |
V17N2
|
| PCS Nitrogen |
V18N2
|
| Perfect Enterprise Company |
V17N1
|
| Phoenix |
V18N2
|
| Pratt & Whitney |
V11N1
|
| Revak |
V18N2
|
| Rohm and Haas |
V16N1, V17N2, V19N1,19N2
|
| Rome Metals |
V19N3
|
| Sabin Metal |
V18N2
|
| Sandvik |
V9N3
|
| Sasol |
V20N2
|
| Sinopec |
V20N2
|
| Smith & Nephew |
V22N4, V26N1
|
| Spectore Corporation |
V26N3&4
|
| SPEMET Company, Ltd |
V17N1
|
| SPF Corporation of America |
V18N2
|
| Starchem |
V20N2
|
| TASCO |
V17N1
|
| Teledyne Wah Chang - Alabama Facility |
V15N3
|
| Tennessee Eastman |
V11N2
|
| Tennessee Valley Authority (TVA) |
V7N3, V15N1
|
| Tico Titanium |
V30N3
|
| TiSport |
V23N3, V28N1
|
| Titanium Fabrication |
V30N3
|
| Titanium Industries |
V19N3
|
| Titanium Wire Division (TiWire) |
V22N4, V23N4
|
| Tricor |
V18N2
|
| United Titanium, Inc. |
V30N4
|
| Vicksburg Chemical |
V10N3
|
| Vulcanium Corp., Northbrook, IL |
V1N4
|
| Weatherly |
V18N2
|
| Welders N.V. |
V19N1, V20N2
|
B. Armor Steel
| ATI 500-MIL™ Armor Steel |
V29N2&3
|
C. Columbium/Niobium
| Alloy Fastener |
V8N1
|
| Apolo 11 Aniversary Stirs Memories of Nb Alloy Project |
V25N4
|
| C-103 |
V16N2, V21N2
|
| Cathodic Protection |
V6N2, V7N2
|
| Cb in Corrosives |
V2N2, V3N2
|
| Chemicals |
V14N4
|
| Chromic Acid Recovery Applications |
V8N4, V13N3
|
| Coins |
V15N3
|
| Collider |
V16N4
|
| Couplings |
V16N2
|
| Deep Drawn Parts |
V10N1
|
| Electrodes Support Structure |
V3N2
|
| Explosive Bonding |
V15N2
|
| Fluoride Containing Acids |
V13N3
|
| General Properties And Corrosion Resistance |
V13N3
|
| Gold Mining using Nb-55Ti |
V13N2, V14N4
|
| Heat Pipes |
V11N2
|
| High Temperature Applications |
V11N2, V16N2
|
| H2SO4 And HNO3 |
V13N3
|
| Immersions Heaters |
V2N2
|
| Innovator Gravitates to Niobium for Superconducting Cavity Experiments |
V23N2
|
| Jewelry |
V9N4
|
| Magnets |
V15N3, V16N4
|
| Magnetic Resonance Imaging (MRI) |
V15N3, V16N4
|
| Modified Jelly Roll (MJR) |
V15N3, V16N1, V17N2
|
| Monofilament Billet/Wire |
V16N4
|
| Multi filamentary Superconducting Wire |
V16N4
|
| Nb1Ti3Sn |
V15N3
|
| JcNb3Sn Wire |
V17N2
|
| Nb3Sn |
V15N3, V16N1, V17N2
|
| Nb55Ti |
V13N2, V14N4, V15N2
|
| New Applications |
V10N2
|
| Niobium Alloy C-103/Aerospace Applications |
V21N1
|
| Niobium Alloy Mission Critical for Astrium ATV |
V30N1&2
|
| Niobium-Titanium |
V15N3, V16N2
|
| Niobium-55 Titanium - Gold Mining |
V13N3, V14N4, V15N2
|
| Outdoor Lighting Systems |
V9N2, V10N1, V13N3
|
| Oxidizing Solutions |
V13N3
|
| Particle Accelerators |
V15N3
|
| Properties of Niobium Alloys |
V16N2
|
| Relativistic Heavy Ion Collider (RHIC) |
V16N4
|
| Service Center Opens |
V12N2
|
| Stock (Service Center) |
V13N3
|
| Sodium Gas Discharge Lamps |
V9N2, V13N3
|
| Superconducting Alloys and Composites |
V15N3
|
| Superconducting Cavities |
V7N4, V13N1
|
| Superconducting Filaments |
V16N4
|
| Superconducting Magnets |
V16N4
|
| Superconducting Wire |
V16N1, V16N4
|
| Superconductivity |
V15N3
|
| Teledyne Wah Chang - Alabama Facility |
V15N3
|
| Unique Properties of Niobium Alloys |
V16N2
|
| Usage |
V5N2
|
| Uses |
V5N2, V15N3, V16N2
|
| WC's Alabama Operation Manufacturer Wire Products that Connect with Customers |
V25N2
|
| Water Purification |
V9N1
|
D. Corrosive Media
| Bromine - Liquid and Gaseous in Nb |
V2N2, V13N3
|
| The Effect of Oxidizers on the Corrosion Resistance of Reactive Metals |
V24N1
|
| Galvanic Corrosion |
V24N2
|
| H3PO4 And HNO3 in Nb |
V2N2
|
| Hydrochloric Acid |
V1N2
|
| Hydroxides |
V15N3
|
| Intergranular Corrosion |
V23N1
|
| Laboratory Services |
V19N4
|
| Monsanto Nitric Acid Plant |
V18N1
|
| Matching Medium to Structural Material |
V17N1
|
| Niobium's Role Growing in the Fight Against Corrosion |
V23N2
|
| Organics |
V1N2
|
| Stress Corrosion Cracking (SCC) |
V18N1
|
| Thermal Conductivity |
V2N3
|
| Ti325 - General Corrosion |
V5N1, V7N4
|
| Zr and Ti in Acetic Acid |
V13N3
|
| Zr and Ti Corrosion Properties |
V19N2
|
| Zr and Ti in Seawater & Chloride Salt Solutions |
V3N3, V4N1
|
| Zr Basic Sulfate (ZBS) |
V17N3
|
| Zr Carbonate |
V17N3
|
| Zr Chlorinated Hydrocarbons |
V1N2
|
| Zr Chloride Media |
V1N2, V2N2, V9N4, V13N1
|
| Zr Corrosion Field Data |
V23N3
|
| Zr Hydroxide |
V17N3
|
| Zr in Acetic Acid |
V4N1, V4N2, V8N3, V11N1, V13N4, V16N1, V17N2
|
| Zr in Acidic Chloride |
V17N1
|
| Zr in Adipic Acid |
V16N1
|
| Zr in Alcohols |
V16N1
|
| Zr in Ammonium Nitrate |
V18N4
|
| Zr in Benzine And Monochlorobenzine |
V3N4
|
| Zr in Chloride Salts |
V2N3
|
| Zr in Formic Acid |
V16N1, V17N2
|
| Zr in Methyl Isobutyl Ketone |
V16N1
|
| Zr in Methyl Methacrylate |
V17N2
|
| Zr in Nitric Acid |
V4N3, V5N3, V6N4, V7N1, V9N1, V10N1, V10N2, V10N3, V12N1, V13N2, V15N1, V15N3,
V16N1, V17N2, V18N1, V18N4
|
| Zr in Organic Acids |
V17N2
|
| Zr in Oxidizing Acids |
V17N1
|
| Zr in Phenolic Resins |
V16N1
|
| Zr in Polymers |
V16N1
|
| Zr in Reducing Acids |
V17N1
|
| Zr in SO2 Saturated Na Cl |
V4N1
|
| Zr in Glycolic Acid |
V14N3
|
| Zr in Sulfuric Acid(H2SO4) |
V1N1, V1N4, V2N1, V3N1, V3N4, V5N4, V7N3, V8N2, V9N1, V9N4, V10N1, V10N3,
V11N2, V13N1, V14N3, V17N1, V19N1, V23N4
|
| Zr in Urea |
V16N1, V17N2
|
| Zr Ortho Sulfate Solution |
V17N3
|
| Zr Sponge in Fluoride-Containing Nitric Acid |
V18N1
|
E. Hafnium
F. Miscellaneous Topics:
| 50th Anniversary for Wah Chang |
V27N3
|
| Abrasion Data - Oxide Film |
V6N1
|
| Achievement: Bart Frechem of Rohm & Haas Receives Lifetime Achievement Award |
V28N3&4
|
| Advanced Metal Components, Inc.(AMCI) |
V16N1, V16N2
|
| Aerospace Machine Shop |
V11N1
|
| Allcorr Alloy |
V23N1
|
| Allegheny Technologies Announces New Premium-Grade Titanium Sponge Facility |
V27N2
|
| Alloy Development |
V13N1
|
| Alloy Substitution - The Switch Is On |
V26N3&4
|
| Ammonium Nitrate Producers |
V17N3, V18N4, V19N1, V19N2, V19N4, V20N3, V20N4, V21N3, V22N2
|
| Analytical Lab |
V15N4
|
| Analytical Testing Services Available |
V20N3, V26N1
|
| ANPSG/Nitric Groups |
V23N2
|
| Apollo 11 Anniversary Stirs memories of Nb Alloy Project |
V25N4
|
| Armor Community Weighs in with Lighter Solutions for Future Ground Vehicles |
V27N2
|
| Aronson, Arthur H.; Exec VP of Allegheny Technologies |
V17N3
|
| Art of Metallography |
V5N4
|
| Asia Nitrogen Conference |
V18N4
|
| AsiMi Award |
V17N1
|
| ATI Displays Bleriot XI Monoplane at 100th Paris Air Show |
V30N1&2
|
| ATI in the News |
V29N2&3
|
| ATI Puts on a Show at Corrosion 2008 |
V29N1
|
| ATI 425™ Titanium Alloy Adopted by ASTM (Grade 38) |
V27N1
|
| ATI 425™ Titanium Alloy Data Sheet |
V27N2
|
| ATI Changes Name and Focus |
V20N4
|
| ATI Launches Web-based Customer Feedback System |
V25N1
|
| ATI Unveils New Specialty Armor Steel |
V29N2&3
|
| ATI Wah Chang Celebrates 50 Years of Innovation |
V27N1
|
| ATI Wah Chang Introduces OmegaBond™ Advanced Tubing Technology |
V27N1
|
| ATI Wah Chang Today and Tomorrow: Senior Management Insights |
V29N1, V29N2&3
|
| ATI Wah Chang's Beck Summits ASTM with H.V. Churchill Award |
V29N1
|
| ATI's Biomaterials and Metals for Medical Devices |
V26N1
|
| Automated Welding System |
V18N2
|
| BiMetallic Tube Production At TWCA |
V5N1
|
| (A) Biomass Future? |
V25N3
|
| Biomass-to-Ethanol |
V15N1
|
| Carbon Steel |
V17N4
|
| Chem Show 2003 |
V24N3
|
| Chemical Engineering Exposition and Conference |
V19N1
|
| Chemical Impurities - Challenges In Material Selection |
V9N4
|
| Chemical
Processing Industry (CPI) Development Team |
V18N3
|
| Chemical Processing Industry (CPI) Service Center
Opens |
V12N2
|
| Chemical Products Brochure |
V14N4
|
| Clean Room at Joseph Oat |
V18N2
|
| Coins - Commemorative |
V15N3, V24N3
|
| Composites |
V15N2
|
| Conversion Services |
V13N3
|
| Corcoran Named ATI President/CEO |
V20N4
|
| Coriolis Mass Flowmeter |
V23N4
|
| Corrosion Applications Conference |
V23N4, V24N1, V24N3
|
| Corrosion Group - Technical Services |
V13N2
|
| Corrosion Lab Chronicles: Corrosion Testing of Nb in HCl |
V22N1
|
| Corrosion Lab Chronicles: HBr Acid |
V21N3
|
| Corrosion Lab Chronicles: New Corrosion Data & Applications |
V21N1
|
| Corrosion Lab Chronicles: Pickled Zirconium Autoclave Proves Ideal Solution for Tests |
V27N1
|
| Corrosion Lab Chronicles: Pickling |
V20N4
|
| Corrosion Lab Chronicles: Simulating Severe Conditions in an Autoclave |
V24N2
|
| Corrosion Lab Chronicles: Wear Resistance of Zr 702 |
V21N4
|
| Corrosion Lab Chronicles: Today's Menu:Zircadyne Zirconium Prepared In Sulfuric Acid |
V23N4
|
| Corrosion Lab Chronicles: Selecting Appropriate Corrosion Resistant Metals |
V30N3
|
| Corrosion Lab Chronicles: Zirconium Oxide |
V20N3
|
| Corrosion Laboratory |
V4N3, V29N4
|
| Corrosion Conference Web Site Launched |
V26N1
|
| Corrosion Materials Education |
V20N3
|
| Corrosion Mechanisms |
V12N2, V16N1
|
| Corrosion Resistant Castings |
V23N3
|
| Corrosion Solutions® Conference |
V21N4, V22N1, V22N2, V22N3, V23N1, V24N2, V25N3, V25N4, V26N1, V26N2, V26N3&4, V27N2, V27N3, V28N1, V28N2, V28N3&4, V29N2&3, V29N4, V30N1&2
|
| Corrosion Solutions® Seminar Series |
V21N1, V21N2, V21N3, V21N4, V22N2, V23N3, V26N1, V27N2, V29N4
|
| Corrosion Solutions® Workshop |
V30N1&2
|
| CorrosionSolutions.com (new) |
V23N3
|
| Cost Comparisons Zr Versus Other Metals |
V4N1, V6N2, V8N2, V12N2, V17N2
|
| Cost Effective Reality of Zr |
V12N2, V17N2
|
| CPI Service Center |
V12N2, V13N3, V14N4, V17N4, V18N2
|
| Critical Material Certified Supplier Award |
V17N1
|
| Critical Pitting of Zr in HCL |
V2N4
|
| Cryofit(r) |
V16N1, V16N2
|
| Cryolive(r) |
V16N1
|
| CSC09™ Corrosion Solutions® 2009 7thInternational Conference |
V30N1&2
|
| CSC09™ Update - Three Awarded for Efforts |
V30N3
|
| Customer Service |
V13N3, V13N4
|
| Data Sheets |
V17N3
|
| DuPont Glycolic Acid |
V14N3
|
| EB Furnace at Wah Chang |
V22N1
|
| Engineered Products |
V20N2
|
| Environmental Impact of V-4Cr-4Ti |
V17N2
|
| Is the Age of Equipment Important? |
V28N3&3
|
| Equipment At TWCA |
V4N4
|
| Erosion/Oxide Coating |
V2N3, V11N2
|
| Ethanol) With Demand for Ethanol Rising, the Need for Dependable Material of Construction Escalates |
V25N3
|
| Explosion Welding: From Priciple to Practice |
V25N1
|
| Explosive Welding |
V15N2
|
| Explosively Clad Zr |
V6N1, V15N2
|
| Exxon |
V16N1
|
| Fabricating with Reactive and Refractory Metals |
V30N4 e
|
| Failure Analysis and other services offered by OWC |
V20N3
|
| Failure Analysis Q & A |
V15N1
|
| Farnborough International |
V25N2
|
| Field Testing Zr Corrosion Coupons Q&A |
V22N3
|
| First Hand Column |
V22N4
|
| Flexible Ceramic Pad (FCP) Heating Elements |
V17N4
|
| Flowformed Products |
V20N1
|
| Forming Zirconium Heads |
V18N3, V18N4
|
| Frequently Asked Questions (FAQ) |
V17N3
|
| Fundamentals of Titanium Workshop |
V27N2
|
| Fusion Application of V-4Cr-4Ti |
V17N2
|
| Galvanic Corrosion in Zircadyne(r) |
V16N3
|
| Gas Tungsten Arc Welding (GTAW) |
V18N2
|
| Gillette Omnimark Award |
V12N2
|
| GFM Rotary Forge |
V9N1, V11N2
|
| Gold Mining |
V13N3, V14N4
|
| Golden Hadron Award from Cern |
V23N3
|
| "Grignard" Reagents |
V16N1
|
| Grubb (John) Named to ASM 2005 Class of Fellows |
V26N2
|
| Hassey named new Allegheny Technologies President and CEO |
V24N3
|
| Heat Exchangers |
V1N1, V2N1, V2N3, V2N4, V3N1, V3N4, V4N1, V4N2, V5N2, V5N3, V5N4, V6N4,
V7N1, V8N2, V8N4, V9N1, V12N2, V13N2, V14N4, V17N2, V17N4, V18N1
|
| Hardcore® Technology, Drilling Solutions for the Heat Exchanger Industry |
V30N3
|
| Heat Treating Fabricated Reactive Metal Equipment |
V26N3&4
|
| Heat Treatment Q&A |
V21N3
|
| HERA Project |
V16N4
|
| High Alloy Stanless Steels for Concentrated Sulfuric Acid |
V30N3
|
| High Critical Current-Density (High-Jc) |
V17N2
|
| High Performance Mission Critical Metallics® Titanium |
V30N1&2
|
| High-Field NMR Magnet |
V17N2
|
| High-Jc Wire |
V17N2
|
| Honorary Rusty Award |
V30N3
|
| Hotmetalshop.com |
V24N2
|
| Hydrogen Metal Membranes Q & A |
V21N1, V21N2
|
| Iolar Zirconium Putter |
V25N4
|
| In the Unlikely Event of a Failure |
V20N3
|
| "International Conference on the Use of Zirconium
in Organics", Wah Chang's First Conference |
V17N4, V18N1, V18N2
|
| International Symposium on Hydrogen in Matter (ISOHIM) |
V26N1
|
| Internet Site |
V17N1, V17N3
|
| ISO 9002 Certification |
V15N4
|
| ISOHIM 2005 |
V26N1
|
| Isotropic Solid Compounds (Oxides) |
V15N4
|
| ITA Applications Conference |
V19N2, V19N3, V22N2
|
| ITA to Hold Melting Technology Roundtable |
V19N3
|
| Jack Tosdale Selected by ASTM Board for 2006 Award of Merit |
V27N1
|
| Laboratory and Technical Services |
V23N3, V26N2
|
| Laboratory and Testing Services |
V23N4
|
| Lifetime Achievement Award : BJ Sanders |
V30N3
|
| Matching Medium/Capabilities of Structural Materials |
V17N1
|
| Materials for Future Chemical Plant Concepts |
V29N2&3
|
| Materials Innovation Award : Gian Pietro Testa |
V30N3
|
| Mechanical & Design Properties |
V7N4
|
| Medical Applications |
V14N1B
|
| Medical Device Innovator Rebuilds lives with Zr Knee Implant |
V22N4
|
| Medical Device Technology 05 |
V25N4
|
| Merger |
V17N3
|
| Metal Powders |
V14N1B
|
| Metallics for Astrium ATV |
V30N1&2
|
| Metals Samples Co |
V9N3
|
| Metallurgical Laboratory Combines Best of Old and New Technology To Create a Unique System |
V24N2
|
| Micheau Promoted to Vice President of Operations |
V29N1
|
| Mining |
V13N2, V14N4
|
| Mission Critical Metallics for Rotary Aircraft |
V30N1&2
|
| NACE Meeting |
V18N4, V19N4, V20N1, V20N2, V20N4, V21N4, V22N4, V23N4, V25N1, V29N1
|
| NACE Reports on the Cost of Corrosion |
V23N3
|
| NB Superconducting Cavities - Nuclear Physics |
V7N4
|
| Nb3Sn Superconducting Joints |
V17N2
|
| Nb3Sn-Nb3Sn Superconducting Splicing |
V17N2
|
| New Directions at Wah Chang |
V21N1
|
| New GFM Rotary Forge |
V9N1
|
| New Lab Instrumentation -TWC No.1 |
V14N1
|
| New Salt Bath Oxidation Technique |
V6N1
|
| New Technical Services Group |
V20N3
|
| New Titanium Alloy for Aerospace |
V27N3
|
| New York Chem Show |
V20N1, V20N3
|
| News in Review |
V20N3, V20N4, V21N2, V22N4
|
| Niobium Alloy Mission Critical for Astrium ATV |
V30N1&2
|
| Niobium Coin Commemorates a First in Flight |
V22N3
|
| Niobium Commemorative Celebrates 100-Year Anniversary of Wright Brothers Feat |
V24N1
|
| Niobium Commemorative Celebrates Rocket-Powered Flight |
V25N2
|
| Niobium's Role Growing in the Fight Against Corrosion |
V23N2
|
| Nitinol - A NiTi Material with Unusual Properties |
V20N4
|
| Nitinol Shape Memory Alloy |
V16N1
|
| Nitric Acid Producer's Meeting. |
V18N1, V18N2, V18N4, V19N1, V19N2, V20N1, V21N1, V22N1, V23N1
|
| Nitric Acid Prducer's Zirconium Seminar |
V21N1
|
| Nitrogen Conference |
V20N4, V23N3
|
| Northwest Technical Ind. (NTI) |
V15N2
|
| Not All Zr is Zircadyne(r) |
V14N1
|
| Nuclear Energy & ATI Wah Chang - Past, Present, Future |
V29N2&3
|
| Nuclear Energy, Making a Case for |
V29N2&3
|
| Omegabond™ Advanced Tubing Technology |
V27N1, V28N3&4, V29N4
|
| Omnimark Award |
V12N2
|
| Online Quoting and Inventory Portal |
V24N3
|
| Oregon State University |
V15N4
|
| Outlook - Past Issues |
V14N1
|
| Outlook - Internet |
V17N3
|
| Outlook Begins 2000 with New Editor |
V20N4
|
| Overcompensation in Bending Reactive Metals |
V17N3
|
| OWC's Marketing |
V20N2
|
| Oxinium™ by Smith & Nephew |
V26N1
|
| Panel Session 1 (2005 CS Conference: Options for Cladding |
V28N1
|
| Panelcoil Heat Exchanger - Zircadyne(r) 706 |
V5N2
|
| Paris Air Show |
V20N1
|
| Particle Accelerator Conference |
V24N1
|
| Phoenix Mars Lander: NASA Team Approves ATI 425® Titanium for Mission to Mars |
V28N2
|
| Photomicrographs |
V17N3
|
| Physical and Mechanical Properties of Zircadyne(r) |
V3N4
|
| Powder Metallurgy |
V6N3
|
| Pratt & Whitney |
V11N1
|
| Production Capabilities-Seamless Tube And Pipe |
V3N2
|
| Planning of Material Requirements for Large Scale
Projects. |
V18N4
|
| Question and Answer with Carlos Aquirre |
V19N3
|
| Question & Answer: ATI Aerospace Q&A |
V30N1&2
|
| Question & Answer: How Does Surface Condition Affect the Corrosion of Zirconium in Acidic Chloride Solutions |
V25N1
|
| Question & Answer: FAQs About ATI Wah Chang's New OmegaBond™ Advanced Tubing Technology |
V27N3
|
| Question & Answer: Spacebound Alloys |
V25N4
|
| Question & Answer: Taking Advantage of Castings |
V23N2
|
| Question & Answer: The Welding of Dissimilar Reactive/Refractory Metals |
V26N1
|
| Question & Answer: Welding Zirconium to Titanium |
V24N3
|
| Question & Answer: Zirconium versus H2O2 |
V25N4
|
| Question & Answer: Zirconium Welding |
V28N3&4
|
| Reactive Metals in Corrosive Applications Conference |
V19N2, V19N4, V20N1, V20N2, V20N4, V21N2
|
| Reactive Welding Seminar |
V21N1, V21N2, V22N1, V23N1, V24N1, V26N1, V27N1
|
| Relativistic Heavy Ion Collider (RHIC) |
V16N4
|
| Resistance Cladding of Zr |
V8N1
|
| Return on Investment |
V15N1, V15N3
|
| R%ick Sutherlin Receives TPA Publication Award for Best Technical Article |
V27N1
|
| Rohm and Haas |
V16N1
|
| Rolling Zirconium Flat Bar |
V18N4
|
| Safety First: Sales Manager Gains Insight and Support from Fall |
V25N2
|
| Safety Valves and Rupture Disks Q & A |
V22N4
|
| Scanning Electron Microscope (SEM) |
V26N1
|
| Service Center Stock |
V12N2, V13N3, V14N4
|
| Service Centers in Europe |
V13N2
|
| Shape Memory and Superelastic Technologies: Engineering and Biomedical Applications Conference |
V23N4, V25N4
|
| Shape Memory Alloy |
V16N1
|
| Small-diameter Tube Cell |
V29N2&3
|
| Society of Vacuum Coaters Technical Conference |
V24N1
|
| Sony Digital Imaging System |
V24N2
|
| Specialty Metals in Corrosion Applications Conference |
V24N2
|
| Spectore Turns Ordinary Titanium into a Black-Ti™ Affair |
V26N3&4
|
| Spring Mineral Processing Meeting |
V20N1
|
| SSCL Validates TWC Superconductor Superconducting
Test Lab |
V13N1
|
| Stainless Steel World 2001 & 2003 |
V22N3, V24N3
|
| Statistical Process Control (SPC) |
V17N3
|
| Sulphur '98 Meeting |
V19N2
|
| Superconducting Wire |
V16N1
|
| TWC Analytical Lab Capabilities |
V6N2
|
| TWC's Corrosion Laboratory |
V8N2
|
| TWC's Processing Services |
V13N3
|
| TWC's Name & Logo Change |
V17N3
|
| TWC Opens Service Center |
V12N2
|
| TWC Products in Ceramics |
V9N1
|
| TWC Production Chemicals |
V9N1, V9N4, V12N2
|
| TWC Products in Pollution Control Application |
V8N4
|
| TWC R&D Metallurgical Capabilities |
V11N1
|
| Tests Show OWC's H2 Membrane Delivers High Level of Hydrogen Purity |
V20N4
|
| The Switch Is On™ |
V27N1
|
| Tico Titanium Distributing Solutions to Industry |
V30N3
|
| Thermal Conductivity Comparison |
V2N3
|
| Titanium for Renewable Energy Applications |
V30N4
|
| Titanium >99 |
V20N3
|
| Titanium Rammed Graphite Castings for Military Applications |
V27N2
|
| Titanium & Zirconium Welding Seminar |
V28N2
|
| Ti Fab Goes to Great Lengths with Zirconium |
V30N3
|
| United Titanium Inc Turns Exotic Alloys into Critical Parts |
V30N4
|
| Use of Reactive Metals in the Production of Biofuels |
V29N1
|
| V-4Cr-4Ti in DIII-D Divertor Upgrade |
V17N2
|
| Value-Added Technical Services at Wah Chang |
V29N4
|
| Videoconferencing |
V14N4
|
| Wah Chang Celebrates 50 Years of Innovation |
V27N2, V27N3
|
| "Wah Chang" or Great Development |
V17N3
|
| Wah Chang Labs Launches New On-Line Resource |
V25N3
|
| Warehouse Expansion at TWC - Zr |
V8N2
|
| Waste Management |
V22N4, V23N4, V25N1, V25N4
|
| WC's Alabama Operation Manufactures Wire Products that Connect with Customers |
V25N2
|
| WC Bolsters the Sales and Technical Marketing Teams |
V21N1, V22N4
|
| WC's Laboratory & Technical Services Group |
V25N2
|
| WC Laboratory & Testing Services |
V23N4, V24N2
|
| WC Offers Laboratory and Techical Services |
V23N3
|
| WC Launches Online Quoting and Inventory Portal |
V25N2
|
| TWC Organization |
V16N4, V17N2, V20N4, V21N2, V21N3, V21N4, V22N1, V22N2, V22N3, V23N4, V24N2, V24N3, V25N1, V25N2, V25N4, V26N1, V26N2, V26N3&4, V27N1, V27N2, V27N3, V28N2, V28N3&4, V29N1, V29N2&3, V29N4
|
| WC's Unique Machine Shop Taps Wealth of Knowledge to Meet Customer Challenges |
V25N3
|
| Wear Resistant Surfaces on Zr Nobleizing |
V11N2
|
| Weld Contamination Q & A |
V20N3
|
| Weld Seminar at Wah Chang |
V7N1, V15N2, V18N1, V19N1, V20N2, V22N1, V23N1, V24N1, V25N2, V29N4
|
| Welding Seminar in Houston, Texas |
V28N2
|
| Welding Seminar in Texas City, Texas |
V29N2&3
|
| Welding System - Automated |
V18N2
|
| Which Zircadyne(r) Alloy Should You Use |
V2N4
|
| William K. McDonald Receives Ogden Award |
V25N3
|
| Wire - Superconducting |
V16N1
|
| World Wide Web Site |
V17N1, V17N3
|
| Zr and Ti Complementary Sister Metals |
V13N1
|
| Zr at Work at TWC |
V4N2
|
| Zr Impeller Shaft |
V11N2
|
| Zr Large Plate Capability |
V12N1
|
| Zr Chemicals-TWC's Other Product Line |
V12N2
|
| Zircadyne(r)/Zircaloys(r) - CPI/Nuclear Reactors |
V13N1, V15N1
|
| Zirconium Alloy Hip Replacement |
V26N1
|
| Zirconium/Organics Conference |
V18N3, V19N2
|
| Zirconium Pump Sets New Standard for ATI Wah Chang Spong Plant |
V30N4
|
| Zirconium Stopper is Music to Flautist's Ears |
V25N1
|
| Zr Putter |
V25N4
|
G. Nickel
| Based Alloys in Chemical Applications |
V17N1
|
| Innovator Shaping Memory Metal Solutions for Industry |
V23N4
|
| Ni in Nitric Acid |
V18N1
|
| Ni-Ti |
V16N2, V16N3, V21N3
|
| Nitinol Devices and Components (NDC) |
V16N3
|
| Nitinol Materials Sales(NMS) |
V16N3
|
| Shape Memory Alloy |
V16N1, V16N3
|
| Superelastic NiTi Wire |
V16N3
|
I. Niobium
| Niobium Alloy Mission Critical for Astrium ATV |
V30N1&2
|
J. Stainless Steels
| AL 2003™: A Lean Duplex Stainless Alloy for pressure Vessel Applications - ASME Code Case 2503 |
V27N1
|
| Armor Community Weighs in with Lighter Solutions for Future Ground Vehicles |
V27N2
|
| High Purity 316L for Semiconductor Gas Distribution |
V20N1
|
| Nitric Acid |
V20N1
|
K. Titanium
| Alloy C - A Unique Ti Alloy |
V13N2, V14N1B, V14N3, V16N2
|
| Armor Community Weighs in with Lighter Solutions for Future Ground Vehicles |
V27N2
|
| ATI to Expand Titanium production Capabilities in Albany, OR |
V26N2
|
| ATI 425™: A New 130 ksi UTS Alloy for Pressure Vessel Applications ASME Code Case 2532 |
V26N3&4
|
| ATI 425® Titanium Alloy |
V24N3, V28N2, V29N4
|
| ATI 425™ Titanium Alloy Adopted by ASTM (Grade 38) |
V27N1
|
| ATI 425™ Titanium Alloy Data Sheet |
V27N2
|
| Bats (Softball) |
V15N4
|
| Bicycles |
V10N1
|
| Castings |
V10N3, V19N1, V19N2
|
| Corrosion Resistance |
V13N1
|
| Fundamentals of Titanium Workshop |
V27N2
|
| Golf Shafts (Sandvik) |
V9N3
|
| Hyydrometallurgical Applications of Titanium Clad Steel |
V23N1
|
| New Armor Alloys |
V20N4
|
| New Titanium Alloy for Aerospace |
V27N3
|
| Powders |
V9N3
|
| Spectore's Black-Ti™ Jewelrey |
V26N3&4
|
| Tiadyne 3510™ |
V20N4
|
| Tiadyne 3515®(Alloy C) |
V13N2, V14N1B, V14N3, V16N2
|
| TiSport's Bikes on Patrol |
V28N1
|
| Titanium for Renewable Energy Applications |
V30N4
|
| Titanium 15-3-3-3 |
V15N4
|
| Titanium 3Al-2.5V (Grade 9) |
V5N1, V7N4, V10N1, V10N3, V16N2
|
| Titanium 3Al-2.5V Applications |
V7N4
|
| Titanium 3Al-2.5V Corrosion Properties |
V7N4, V10N3
|
| Titanium 3Al-2.5V in Racing Bicycles |
V1ON1
|
| Titanium 4A1-2.5V-1.5Fe-0.25O |
V24N3
|
| Titanium 45 Niobium |
V14N1, V14N4, V15N2, V20N1
|
| Titanium Aluminides |
V16N2
|
| Titanium Grade 2 |
V22N4
|
| Titanium Grade 7 |
V20N2
|
| Titanium Grade 16 |
V20N2
|
| Titanium in Seawater and Chloride Salts |
V3N3, V10N3, V13N1
|
| Titanium & Zirconium Welding Seminar |
V28N2
|
| Titanium - Niobium Is Castable |
V14N1
|
| Titanium Powder |
V9N3
|
| Titanium Rammed Graphite Castings for Military Applications |
V27N2
|
| Titanium Welded to Steel |
V12N2
|
| Versatility Makes Titanium Popular in the Chemical Process Industries |
V19N3
|
| Wah Chang Titanium Sphere Cast in Critical Role for Deep Sea Projects |
V26N2
|
L. Vanadium
| Vanadium Production - Properties, Composition, Alloys, Applications |
V18N2
|
| Vanadium Alloys - Potential Fusion Allies |
V12N2
|
| Vanadium Alloys - Environmental Impact |
V17N2
|
| Vanadium - Explosive Bonding |
V15N2
|
| V-4Cr-4Ti - Activation vs. Time Characteristics |
V17N2
|
| V-4Cr-4Ti - Fusion Applications |
V17N2
|
M. Zirconium
| Acetone Cyanohydrin (ACN) |
V16N1
|
| Acetic Acid and Anhydride |
V8N3, V11N1, V13N4, V16N1, V17N2, V18N2
|
| Adipic Acid |
V16N1
|
| Agitators |
V9N4
|
| Alaskan Copper Works |
V9N4
|
| Alcohols |
V16N1
|
| Alkaline Solutions |
V15N3, V17N2
|
| Ammonium Hydroxide |
V17N2
|
| Astro Metallurgical |
V11N2
|
| At F.B.M. |
V2N4
|
| Avtex Fibers |
V10N3
|
| By Ceralox Corporation |
V9N4
|
| By Nooter Corporation |
V2N3, V7N2
|
| Castings |
V1N3, V10N3, V12N1, V19N1, V19N2
|
| Caustic Solutions |
V15N3
|
| Changing Pulp & Paper Industry |
V13N2
|
| Chemicals |
V14N4, V15N3
|
| ChemFace Cladding |
V11N1
|
| Chloride |
V1N2, V2N2, V9N2, V13N1
|
| Chloride Salts |
V2N3, V3N3, V13N1
|
| Chlorinated Hydrocarbons |
V1N2
|
| Coal Gasification |
V8N4, V11N2
|
| Cold Bending and Forming |
V4N4
|
| Comparison of Zr Alloys |
V2N4
|
| Condensers |
V17N2
|
| Control of Localized Corrosion in Oxidizing Chloride
Media |
V9N2
|
| Copper Ions |
V16N1
|
| Corrosion Resistance |
V12N2
|
| Cosmos Minerals Corporation |
V13N1, V16N2
|
| Cost-Effective Reality |
V12N2
|
| Crucibles |
V3N1
|
| Custom Fabricated Zircadyne(r) Pipe |
V16N2
|
| Distillation Tower |
V1N2
|
| Duriron |
V14N1B
|
| Effect of Iron on Corrosion Resistance |
V3N4
|
| Electrochemical Protection |
V7N2
|
| Ellett Industries, Ltd. |
V13N2, V17N4, V18N1
|
| Erosion Resistance |
V12N2
|
| ESP |
V4N1
|
| Esso Chemical |
V10N2
|
| Ethanol |
V7N3, V15N1
|
| Explosive Cladding |
V13N2
|
| Explosively Clad Zr-Steel |
V6N1
|
| Extraction Column |
V5N4
|
| Extrusion Billet Manufacturing System (EBMS) |
V17N3
|
| Factors Influencing Charpy Impact Resistance of Zr 702 |
V21N1
|
| Finned Tubing |
V3N1
|
| First Mississippi Chemical/First Chemical |
V13N1, V18N1
|
| Fittings |
V2N1, V14N1
|
| Fluoride Containing Acids |
V9N4
|
| Formic Acid |
V9N3, V11N1, V16N1, V17N2
|
| Gas Tungsten Arc Welding (GTAW) |
V18N2
|
| Gaspar |
V10N3
|
| Gulf Coast Chemical |
V16N2
|
| Galvanic Corrosion |
V16N3
|
| Graphite-Coupling, Effects of |
V16N3
|
| H2O2 |
V12N1, V13N1, V13N2
|
| H2SO4 Concentration, wt. % |
V17N2
|
| H2SO4 Pickling |
V9N1
|
| H2SO4 and FeCl3 |
V3N1
|
| H3PO4 |
V10N1, V13N1
|
| HCI Concentration, wt. % |
V17N2
|
| HCI-Electrochemical Protection |
V7N2
|
| Halides |
V16N1
|
| Heat Exchangers, Reboilers, Preheaters & Reactor
Vessels |
V1N1, V3N4, V5N3, V6N4, V10N1, V10N2, V10N3, V12N1, V13N1, V13N2, V17N2, V17N4, V18N1
|
| Heat Transfer Properties |
V12N2
|
| Heat Trex Coils |
V1N4
|
| Hydrochloric Acid (HCL) |
V9N4, V10N1, V13N2, V15N3, V16N1, V17N2
|
| ICI Australia |
V11N1
|
| Impact Strength |
V19N4
|
| Industrial Alloy Fabricators |
V14N1, V15N1, V18N1
|
| Introducing A New Line of Technical Information |
V21N1
|
| Iolar Zirconium Putter |
V25N4
|
| Joseph Oat Corporation |
V18N2
|
| Kemira |
V11N1
|
| Kidney Dialysis |
V2N2
|
| Lactic Acid |
V16N1, V17N2
|
| Machining Methods |
V17N2
|
| Mechanical Properties of Zr Alloys |
V12N2, V17N2
|
| Mechanical Requirements for Unfired Pressure Vessels |
V17N2
|
| Metallography |
V5N4
|
| Methyl Isobutyl Ketone (MIBK) |
V16N1
|
| Methacrylic Acid (MAA) |
V16N1
|
| Methyl Methacrylate Production (MMA) |
V12N1, V16N1
|
| Monsanto |
V18N1
|
| Microbiologically Induced/Influenced Corrosion (MIC) |
V17N4
|
| Nitric Acid Concentration, wt % |
V17N2
|
| Nitric Acid |
V4N3, V5N3, V6N4, V7N1, V9N1, V10N1, V10N2, V10N3, V12N1, V13N2, V15N1, V15N3
|
| Nobleizing |
V11N2
|
| Nuclear |
V13N1, V17N2, V18N1
|
| Organic Acids, Corrosion Rates in |
V17N2
|
| Organics |
V15N3, V16N1, V17N4, V18N1
|
| Oxalic |
V17N2
|
| Oxide Coatings for Wear Resistance |
V2N3, V6N1, V17N2, V20N3
|
| Phenolic Resins |
V16N1
|
| Phosphoric Acid |
V10N1, V17N2
|
| Physical Properties of Zr Alloys |
V17N2
|
| Picled Zirconium Autoclave Proves an Ideal Solution for Tests |
V27N1
|
| Pipe Pumps |
V17N2
|
| Playing It Safe with Zirconium Q&A |
V21N4
|
| Potassium Hydroxide |
V15N3, V17N2
|
| Powder Metallurgy |
V6N3
|
| Properties |
V12N2
|
| Pulp & Paper Industry |
V13N2, V15N1
|
| Pumps Modified with Zr Liquid Ends |
V2N2
|
| Rayon Production |
V1ON3, V16N1
|
| Rayon Production Heat Exchangers |
V5N3
|
| Return on Investment |
V15N3
|
| Resistance Cladding |
V8N1
|
| Rohm & Haas |
V11N2, V12N1
|
| Sea Water |
V2N2, V3N3
|
| Seamless Zr Pipe, 4-inch Schedule 5 |
V22N1
|
| Shafts |
V11N2
|
| SO2 Scrubbers |
V4N1, V11N2
|
| Sodium Hydroxide |
V15N3, V17N2
|
| Stability and Corrosivity in H2O2 |
V12N1
|
| Stress Corrosion Cracking (SCC) |
V18N1
|
| Stripper Column Trays 702 |
V1N3
|
| Sulfuric Acid |
V1N1, V1N4, V2N1, V7N3, V9N1, V10N1, V13N2, V15N3, V16N1, V17N2
|
| Sulfuric Acid Upset |
V3N1
|
| Sulfuric Acid Containing Organic Media |
V16N1
|
| Taking Advantqage of Castings Q&A |
V23N2
|
| Tennessee Eastman |
V11N2
|
| The Switch Is On™ |
V27N1
|
| Tips for Success: Zirconium Heat Exchangers in Sulfuric Acid Pickling Processes |
V25N2
|
| Tower Packing |
V2N2
|
| Tube to Tubesheet Joint Design: The Many Choices |
V22N1
|
| TVA's Ethanol From Wood Process |
V7N3, V15N1
|
| Urea |
V7N1, V16N1, V17N2
|
| Urea Synthesis |
V7N1
|
| Valves |
V14N1, V17N2
|
| Vessel Fabrication |
V2N3, V2N4, V17N2
|
| Water |
V16N1
|
| Welding Processes, Parameters, Systems |
V12N2, V15N2, V18N2
|
| Zircadyne® |
V15N3, V16N1, V23N1, V23N3, V23N4
|
| Zr Alloys |
V17N2
|
| Zr Applications |
V8N2, V14N1, V15N3
|
| Zr Knee |
V24N1
|
| Zr Sponge in Nitric Acid |
V18N1
|
| Zr Stopper is Music to Flautist's Ears |
V25N1
|
| Zr 702 Scrubber Components Resist ph Swings for 15 Years |
V22N3
|
| Zr 705 Stripper Column Trays |
V1N3
|
| Zr 705 In Ethanol-from-Wood Applications |
V7N3, V15N1, V16N1
|
| Zr 705 In Injection-Well Applications |
V8N3
|
| Zr 705 In TVA's Ethanol-from-Wood Process |
V7N3, V15N1, V16N1
|
| Zr 706 |
V5N2
|
| Zirconium and Titanium Alloy Development Q & A |
V22N2
|
| Zirconium Versus H2O2 Q & A |
V22N2
|
| Zirconium Pump Sets New Standard for ATI Wah Chang Spong Plant |
V30N4
|
|
