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Thermal Barrier Coatings: Global Markets

Published By :

BCC Research

Published Date : Feb 2017

Category :

In Vitro Diagnostics

No. of Pages : 166 Pages


The global market for thermal barrier coatings (TBCs) totaled $834.9 million in 2016 and should total nearly $1.1 billion in 2021 at a five-year compound annual growth rate (CAGR) of 5.6%, through 2021.
Aircraft gas turbine industry as a segment totaled $501.7 million in 2016 and should total $694.8 million by 2021, a CAGR of 6.7% through 2021.
Power generation gas turbine industry as a segment totaled $312.2 million in 2016 and should total $376.5 million by 2021, a CAGR of 3.8% through 2021.

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Chapter 1 INTRODUCTION
STUDY GOAL AND OBJECTIVES
REASONS FOR DOING THE STUDY
INTENDED AUDIENCE
SCOPE OF THE REPORT
METHODOLOGY
INFORMATION SOURCES
ANALYST'S CREDENTIALS
RELATED BCC RESEARCH REPORTS
BCC RESEARCH WEBSITE
DISCLAIMER
Chapter 2 EXECUTIVE SUMMARY
Chapter 3 OVERVIEW
COMPETITIVE LANDSCAPE AND KEY VENDORS
COMPETITIVE LANDSCAPE AND KEY VENDORS
AIRCRAFT INDUSTRY
OEMs
MROs
PMA Parts Providers
POWER GENERATION INDUSTRY AND INDUSTRY USE OF GAS TURBINES
OEMs
MROs
PMA Parts Providers
MARINE DIESEL ENGINES
Chapter 4 MARKET SEGMENTATION
THERMAL BARRIER COATING MARKET BY ARCHITECTURE
THERMAL BARRIER COATING MARKET BY APPLICATION INDUSTRY
BASIS OF THE CALCULATION OF THE MARKET SIZES OF INDUSTRY APPLICATIONS OF TBC IN 2016
Aircraft Industry
Power Generation Industry and Industrial Gas Turbines
Marine Diesel Engine Industry
THERMAL BARRIER COATING MARKET BY DEPOSITION PROCESS
THERMAL BARRIER COATING MARKET BY DEPOSITION PROCESS
EB-PVD Thermal Barrier Coatings
LPPS Thermal Barrier Coatings
APS Thermal Barrier Coatings
HVOF Thermal Barrier Coatings
THERMAL BARRIER COATING MARKET BY TYPE OF PROVIDER
AIRCRAFT APPLICATIONS BY TYPE OF PROVIDER
Global Market
Regional Markets
POWER GENERATION APPLICATIONS BY TYPE OF PROVIDER
Global Market
Regional Markets
THERMAL BARRIER COATINGS IN MARINE DIESEL ENGINE APPLICATIONS BY TYPE OF PROVIDER
Global Market
Regional Markets
TBC APPLICATIONS IN THE HOT SECTION COMPONENTS OF AIRCRAFT GAS TURBINES BY FIRING TEMPERATURE
GLOBAL MARKET
APPLICATION SEGMENTS BY REGION
Aircraft Turbine Engines with a Firing Temperature of 1,400C
Aircraft Engines with a Firing Temperature of 1,350C
Aircraft Engines with a Firing Temperature of 1,300C
Aircraft Engines with a Firing Temperature of 1,250C
Aircraft Engines with a Firing Temperature of 1,200C
Aircraft Engines with a Firing Temperature below 1,200C
TBC APPLICATIONS IN THE HOT SECTION OF POWER GENERATION GAS TURBINES AND INDUSTRIAL GAS TURBINES BY FIRING TEMPERATURE
GLOBAL MARKET
APPLICATION SEGMENTS BY REGION
Power Generation Gas Turbine Engines with a Firing Temperature of 1,800C
Power Generation Gas Turbine Engines with a Firing Temperature of 1,750C
Power Generation Gas Turbine Engines with a Firing Temperature of 1,700C
Power Generation Gas Turbine Engines with a Firing Temperature of 1,650C
Power Generation Gas Turbine Engines with a Firing Temperature of 1,600C
Power Generation Gas Turbine Engines with a Firing Temperature of 1,550C
Power Generation Gas Turbine Engines with a Firing Temperature of 1,500C
Power Generation Gas Turbine Engines with a Firing Temperature of 1,450C
Power Generation Gas Turbine Engines with a Firing Temperature of 1,400C
Power Generation Turbine Engines with a Firing Temperature below 1,400C
TBC APPLICATIONS IN MARINE DIESEL ENGINES BY FIRING TEMPERATURE
APPLICATION SEGMENTS BY REGION
Marine Diesel Engines with a Firing Temperature of 650C
Marine Diesel Engines with a Firing Temperature of 600C
Marine Diesel Engines with a Firing Temperature of 550C
Marine Diesel Engines with a Firing Temperature of 500C
Marine Diesel Engines with a Firing Temperature below 500C
Chapter 5 TECHNOLOGY OVERVIEW
ROLE OF HIGH INTAKE GAS TEMPERATURE TO OBTAIN HIGHER GAS TURBINE EFFICIENCY
GAS TURBINE ENGINES CONCEPT AND CONSTRUCTION HOT SECTION COMPONENTS
STAGES
COMBUSTION HARDWARE
Nozzles and Vanes
Stage 1 Vanes
Stage 2 Vanes
Stage 3 Vanes
Stage 4 Vanes
GE Gas Turbine
BLADES AND BUCKETS
Stage 1 Blades
Stage 2 Blades
Stage 3 Blades
Stage 4 Blades
GE Gas Turbine
OPERATING MECHANISM OF OXIDATION AND CORROSION AND ROLE OF TBC IN THE HOT SECTION COMPONENTS OF GAS TURBINES
DIFFUSION COATING VERSUS OVERLAY COATINGS
ROLE OF EACH ELEMENT OF HIGH TEMPERATURE OXIDATION AND CORROSION RESISTANT COATINGS
TYPES AND STRUCTURES OF TBC IN AEROSPACE GAS TURBINE ENGINES
BOND COAT MATERIAL OPTIONS AND PROPERTIES
Major Types of Bond Coats
Aluminide Bond Coat
MCrAlY Bond Coat
Cobalt-Cermet-Based Coatings
Nickel-Chromium Bond Coat
TOP COAT MATERIAL OPTIONS AND PROPERTIES
Yttria-Stabilized Zirconia
Mullite
Alumina
CeO2 + YSZ
Rare-Earth Zirconates
Rare-Earth Oxides
Metal-Glass Composites
ROLE OF THERMALLY GROWN OXIDES
PROCESS OPTIONS FOR BOND COAT AND TOP COAT
Air Plasma Spraying
High-Velocity Oxygen Fuel
Low Pressure Plasma Spray
Electron Beam-Physical Vapor Deposition
Process Description
Advantages and Disadvantages of EB-PVD
Description of EB-PVD Production Systems Coating Machines
Process Control
FUTURE ADVANCES
COMPARATIVE ANALYSIS OF BOND COAT PROCESSES
COMPARATIVE ANALYSIS OF TOP COAT PROCESSES
DEGRADATION OF HOT SECTION COMPONENTS
Creep
Thermal Mechanical Fatigue
Metallurgical Embrittlement
Environmental Attack and Coating Degradation
Oxidation
Hot Corrosion
Coating Degradation
REPAIR OF HOT SECTION COMPONENTS
RECOATING
Chapter 6 THERMAL BARRIER COATING APPLICATIONS
THERMAL BARRIER COATINGS IN AIRCRAFT GAS TURBINE ENGINE APPLICATIONS
CASE STUDY-PRATT & WHITNEY
ROLE OF THICKNESS OF THERMAL BARRIER COATING
CASE STUDY-ROLLS-ROYCE
CASE STUDY-MTU AERO ENGINES-CERAMIC COATING CENTER, FRANCE
CASE STUDY-ELECTRIC WELDING INSTITUTE OF THE NATIONAL ACADEMY OF SCIENCE OF UKRAINE
THERMAL BARRIER COATINGS USED IN POWER GENERATION GAS AND INDUSTRIAL GAS TURBINE (IGT) ENGINES
CRITERION FOR CHOOSING THE TBC ARCHITECTURE FOR POWER GENERATION GAS TURBINES
Quality of Fuels
Oxide Scale
Coating Life
TBC APPLICATIONS IN POWER GENERATION GAS TURBINE ENGINES
Combustor of Gas Turbine for Power Generation
Vane Airfoils
Vane Platforms
BLADE AIRFOILS AND PLATFORMS
MULTILAYERED CERAMIC TBC
LANTHANUM ZIRCONATE
GADOLINIUM ZIRCONATE
CASE STUDIES
Cooling Technology for Hot Section of Gas Turbine Adopted for Power Generation by Mitsubishi Hitachi Power Systems
GTCC Power Generation
Cooling Technology of Hot Section of GTCC Gas Turbine
SIEMENS INDUSTRIAL TURBOMACHINERY AB
Coating Solutions at Sulzer Turbo Services Venlo BV, Netherland
Combined Role of TBC and Cooling Technologies in HP Blades of Gas Turbines Used in IGCC at MHI
GTCC-Related Turbine Features
Gas Turbine with a Firing Temperature of 1,600C-Forschungszentrum Jlich GmbH Germany
THERMAL BARRIER COATINGS IN DIESEL ENGINES
MARINE APPLICATIONS
OEM APPLICATIONS
HOW EMISSION REDUCTIONS ARE ACHIEVED WITH TBC?
ADVANTAGES OF TBC IN DIESEL ENGINES
Chapter 7 PATENTS
OVERVIEW
U.S. PATENT ACTIVITY IN TBC TECHNOLOGY BY ASSIGNEE COUNTRY
U.S. PATENTS ON THERMAL BARRIER COATING TECHNOLOGY
Patent Title: Combustor resonator section with an internal thermal barrier coating and method of fabricating the same
PATENT TITLE: PROCESS OF FABRICATING THERMAL BARRIER COATINGS
PATENT TITLE: METHOD OF FABRICATING A THERMAL BARRIER
PATENT TITLE: GERMANATE-CONTAINING THERMAL BARRIER COATING
PATENT TITLE: THERMAL BARRIER COATINGS INCLUDING CMAS-RESISTANT THERMAL BARRIER COATING LAYERS
PATENT TITLE: THERMAL BARRIER COATINGS AND METHODS OF APPLICATION
PATENT TITLE: THERMAL BARRIER COATING SYSTEM, COMPONENTS COATED THEREWITH AND METHOD FOR APPLYING A THERMAL BARRIER COATING SYSTEM TO COMPONENTS
PATENT TITLE: METHOD FOR MANUFACTURING A THERMAL-BARRIER PROTECTION AND MULTILAYER COATING SUITABLE FOR FORMING A THERMAL BARRIER
PATENT TITLE: TECHNIQUES FOR REMOVING A CONTAMINANT LAYER FROM A THERMAL BARRIER COATING AND ESTIMATING REMAINING LIFE OF THE COATING
PATENT TITLE: METHOD FOR COATING A BLADE AND BLADE OF A GAS TURBINE
PATENT TITLE: METHOD AND APPARATUS FOR FABRICATION AND REPAIR OF THERMAL BARRIERS
PATENT TITLE: HIGH PURITY ZIRCONIA-BASED THERMALLY SPRAYED COATINGS AND PROCESSES FOR THE PREPARATION THEREOF
PATENT TITLE: THERMAL BARRIER COATING METHOD, MASKING PIN AND COMBUSTOR TRANSITION PIECE
PATENT TITLE: ARTICLE HAVING THERMAL BARRIER COATING
PATENT TITLE: THERMAL BARRIER COATING SYSTEMS AND PROCESSES THEREFOR
PATENT TITLE: TRI-BARRIER CERAMIC COATING
PATENT TITLE: PLASMA-SPRAY POWDER MANUFACTURE TECHNIQUE
PATENT TITLE: METHODS AND SYSTEMS FOR CONTROLLING THERMAL DIFFERENTIAL IN TURBINE SYSTEMS
PATENT TITLE: THERMAL BARRIER COATING METHOD, MASKING PIN AND COMBUSTOR TRANSITION PIECE
PATENT TITLE: METHOD FOR REFURBISHING PTAL COATING TO TURBINE HARDWARE REMOVED FROM SERVICE
PATENT TITLE: LASER DRILLING METHODS OF SHALLOW-ANGLED HOLES
PATENT TITLE: DAMAGE RESISTANT THERMAL BARRIER COATING AND METHOD
PATENT TITLE: METHODS AND SYSTEMS TO THERMALLY PROTECT FUEL NOZZLES IN COMBUSTION SYSTEMS
PATENT TITLE: HIGH-PURITY FUSED AND CRUSHED ZIRCONIA ALLOY POWDER AND METHOD OF PRODUCING SAME
PATENT TITLE: THERMAL BARRIER COATING MEMBER, METHOD FOR PRODUCING THE SAME, THERMAL BARRIER COATING MATERIAL, GAS TURBINE, AND SINTERED BODY
PATENT TITLE: LAYERED THERMAL BARRIER COATING WITH BLENDED TRANSITION AND METHOD OF APPLICATION
PATENT TITLE: OXIDE COATING FOUNDATION FOR PROMOTING TBC ADHERENCE
PATENT TITLE: THERMAL BARRIER COATING APPLICATION PROCESSES
PATENT TITLE: EROSION BARRIER FOR THERMAL BARRIER COATINGS
PATENT TITLE: APPLICATION OF DENSE VERTICALLY CRACKED AND POROUS THERMAL BARRIER COATING TO A GAS TURBINE COMPONENT
PATENT TITLE: LIFE MANAGEMENT SYSTEM AND METHOD FOR GAS TURBINE THERMAL BARRIER COATINGS
PATENT TITLE: METHOD FOR APPLYING A THERMAL BARRIER COATING
PATENT TITLE: MULTILAYER THERMAL BARRIER COATINGS
PATENT TITLE: HIGH-TEMPERATURE RESISTANT COMPONENT AND GAS TURBINE HOT PART
PATENT TITLE: METHOD FOR FORMING THERMAL BARRIER COATING ON HOT GAS-PATH COMPONENTS OF GAS TURBINE DURING OPERATION
PATENT TITLE: HIGH PURITY ZIRCONIA-BASED THERMALLY SPRAYED COATINGS
PATENT TITLE: METHODS AND APPARATUS FOR THERMAL BARRIER COATINGS WITH IMPROVED OVERALL THERMAL INSULATION CHARACTERISTICS
PATENT TITLE: SEGMENTED THERMAL BARRIER COATING
PATENT TITLE: METHODS FOR THE PROTECTION OF A THERMAL BARRIER COATING SYSTEM AND METHODS FOR THE RENEWAL OF SUCH A PROTECTION
PATENT TITLE: THERMAL BARRIER COATINGS AND ARTICLES MADE THEREFROM
PATENT TITLE: PROCESS FOR EXTENDING THE CYCLIC SERVICE LIFE OF THERMAL BARRIER COATINGS, IN PARTICULAR ON GAS TURBINE COMPONENTS
PATENT TITLE: PYROCHLORE MATERIALS AND A THERMAL BARRIER COATING WITH THESE PYROCHLORE MATERIALS
Chapter 8 INDUSTRY STRUCTURE
COMPETITIVE LANDSCAPE AND KEY VENDORS
AIRCRAFT INDUSTRY
OEMs
Ceramic Coating Center SAS
MROs
Pratt & Whitney Global Material Solutions
Chromalloy
CTS Engines
MTU Repair Services
Lufthansa Technik AG
Manufacturers of PMA Parts for Aircraft Gas Turbines
POWER GENERATION INDUSTRY
OEMs
MROs
PW Power Systems Inc.
Mitsubishi Hitachi Power Systems
PMA Parts
Sulzer
MARINE DIESEL ENGINES
INDUSTRY DEVELOPMENTS
JOINT VENTURES
MERGERS AND ACQUISITIONS
RECENT TBC COMPANY EXPANSIONS
Chapter 9 COMPANY PROFILES
OEM SUPPLIERS OF AIRCRAFT GAS TURBINES
OEM SUPPLIERS OF POWER GENERATION GAS TURBINES
MRO SERVICE PROVIDERS FOR AIRCRAFT GAS TURBINES
MRO PROVIDERS FOR POWER GENERATION GAS TURBINES
MRO PROVIDERS FOR BOTH AIRCRAFT AND POWER GENERATION GAS TURBINES
PMA PROVIDERS OF AIRCRAFT PARTS
PMA PROVIDERS OF PARTS FOR POWER GENERATION GAS TURBINES
INDEPENDENT TBC COATERS OF BOTH AIRCRAFT AND POWER GENERATION GAS TURBINES
MANUFACTURERS/SUPPLIERS OF TBC MATERIALS AND COATING EQUIPMENT
CERAMIC COATING CENTER SAS
GE AVIATION
MTU AERO ENGINES AG
PRATT & WHITNEY
ROLLS-ROYCE CORP.
TURBOCOATING S.P.A.
ANSALDO ENERGIA
GENERAL ELECTRIC (SWITZERLAND) GMBH
MITSUBISHI HITACHI POWER SYSTEMS LTD. (MHPS)
SIEMENS INDUSTRIAL TURBOMACHINERY AB
SOLAR TURBINES INC.
TURBINE AIRFOIL COATING AND REPAIR GMBH (TACR GMBH)
TOSHIBA CORP.
CTS ENGINES
LUFTHANSA TECHNIK AG
MTU MAINTENANCE HANNOVER GMBH
PRATT & WHITNEY GLOBAL SERVICE PARTNERS (GSP)
SNECMA AMERICA ENGINE SERVICES (SAMES)
SIA ENGINEERING CO. LTD. (SIAEC)
ALLIED POWER GROUP LLC
ETHOSENERGY
LIBURDI ENGINEERING
OERLIKON METCO AG
PW POWER SYSTEMS INC.
SULZER TURBO SERVICES HOUSTON INC.
SULZER TURBO SERVICES VENLO BV
MTU AEROENGINES AG
BELAC LLC
CHROMALLOY
MAPNA TURBINE BLADE ENG. & MFG.-PARTO
PT. SULZER INDONESIA
BODYCOTE
CHROMALLOY
ELLISON SURFACE TECHNOLOGIES
FLAME SPRAY TECHNOLOGIES B.V.
JARVIS AIRFOIL INC.
PRAXAIR SURFACE TECHNOLOGIES GMBH
SWAIN TECH COATINGS INC.
ALD VACUUM TECHNOLOGIES GMBH
BASF CATALYSTS LLC
ETS POWER GROUP INC.
H.C. STARCK GMBH
PROGRESSIVE SURFACE
RGE (RAJPUROHIT GROUP OF ENTERPRISES)
SAINT-GOBAIN CERAMIC MATERIALS GMBH
SANDVIK OSPREY LTD.
ZIRCOTEC LTD.
GE Aviation Plant 2
U.S. Facility

List of Table

Summary Table : GLOBAL MARKET FOR THERMAL BARRIER COATING TECHNOLOGIES BY APPLICATION INDUSTRY, THROUGH 2021
Table 1 : GLOBAL MARKET FOR THERMAL BARRIER COATINGS BY ARCHITECTURE, THROUGH 2021
Table 3 : GLOBAL MARKET FOR TBC TECHNOLOGIES BY APPLICATION INDUSTRY, THROUGH 2021
Table 4 : BASIS OF THE CALCULATION OF THE MARKET SIZE OF THERMAL BARRIER COATING APPLICATIONS IN AIRCRAFT GAS TURBINES, 2016
Table 5 : BASIS OF THE CALCULATION OF THE MARKET FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES, 2016
Table 6 : BASIS OF THE CALCULATION OF THE MARKET FOR THERMAL BARRIER COATING APPLICATIONS IN SPECIAL DIESEL ENGINES, 2016
Table 7 : GLOBAL MARKET FOR THERMAL BARRIER COATINGS BY DEPOSITION PROCESS, THROUGH 2021
Table 8 : GLOBAL MARKET FOR EB-PVD THERMAL BARRIER COATINGS BY APPLICATION INDUSTRY, THROUGH 2021
Table 9 : GLOBAL MARKET FOR LPPS THERMAL BARRIER COATINGS BY APPLICATION INDUSTRY, THROUGH 2021
Table 10 : GLOBAL MARKET FOR APS THERMAL BARRIER COATINGS BY APPLICATION INDUSTRY, THROUGH 2021
Table 11 : GLOBAL MARKET FOR HVOF THERMAL BARRIER COATINGS BY INDUSTRY APPLICATION, THROUGH 2021
Table 12 : GLOBAL MARKET FOR THERMAL BARRIER COATINGS IN AIRCRAFT GAS TURBINE APPLICATIONS BY TYPE OF PROVIDER, THROUGH 2021
Table 13 : REGIONAL MARKETS FOR THERMAL BARRIER COATINGS IN AIRCRAFT GAS TURBINE APPLICATIONS, THROUGH 2021
Table 14 : GLOBAL MARKET FOR THERMAL BARRIER COATINGS IN POWER GENERATION GAS TURBINE APPLICATIONS BY TYPE OF PROVIDER, THROUGH 2021
Table 15 : REGIONAL MARKETS FOR THERMAL BARRIER COATINGS IN POWER GENERATION GAS TURBINE APPLICATIONS, THROUGH 2021
Table 16 : GLOBAL MARKET FOR THERMAL BARRIER COATINGS IN MARINE DIESEL ENGINE APPLICATIONS BY TYPE OF PROVIDER, THROUGH 2021
Table 17 : REGIONAL MARKETS FOR THERMAL BARRIER COATINGS IN MARINE DIESEL ENGINE APPLICATIONS, THROUGH 2021
Table 18 : GLOBAL MARKET FOR TBC APPLICATIONS IN AIRCRAFT GAS TURBINES BY FIRING TEMPERATURE, THROUGH 2021
Table 19 : REGIONAL MARKETS FOR TBC APPLICATIONS IN AIRCRAFT GAS TURBINES WITH A FIRING TEMPERATURE 1,400C, THROUGH 2021
Table 20 : REGIONAL MARKETS FOR TBC APPLICATIONS IN AIRCRAFT GAS TURBINES WITH A FIRING TEMPERATURE OF 1,350C, THROUGH 2021
Table 21 : REGIONAL MARKETS FOR TBC APPLICATIONS IN AIRCRAFT GAS TURBINES WITH A FIRING TEMPERATURE OF 1,300C, THROUGH 2021
Table 22 : REGIONAL MARKETS FOR TBC APPLICATIONS IN AIRCRAFT GAS TURBINES WITH A FIRING TEMPERATURE OF 1,250C, THROUGH 2021
Table 23 : REGIONAL MARKETS FOR TBC APPLICATIONS IN AIRCRAFT GAS TURBINES WITH A FIRING TEMPERATURE OF 1,200C, THROUGH 2021
Table 24 : REGIONAL MARKETS FOR TBC APPLICATIONS IN AIRCRAFT GAS TURBINES WITH A FIRING TEMPERATURE BELOW 1,200C, THROUGH 2021
Table 25 : GLOBAL MARKET FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES BY FIRING TEMPERATURE, THROUGH 2021
Table 26 : REGIONAL MARKETS FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES WITH A FIRING TEMPERATURE OF 1,800C, THROUGH 2021
Table 27 : REGIONAL MARKETS FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES WITH A FIRING TEMPERATURE OF 1,750C, THROUGH 2021
Table 28 : REGIONAL MARKETS FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES WITH A FIRING TEMPERATURE OF 1,700C, THROUGH 2021
Table 29 : REGIONAL MARKETS FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES WITH A FIRING TEMPERATURE OF 1,650C, THROUGH 2021
Table 30 : REGIONAL MARKETS FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES WITH A FIRING TEMPERATURE OF 1,600C, THROUGH 2021
Table 31 : REGIONAL MARKETS FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES WITH A FIRING TEMPERATURE OF 1,550C, THROUGH 2021
Table 32 : REGIONAL MARKETS FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES WITH A FIRING TEMPERATURE OF 1,500C, THROUGH 2021
Table 33 : REGIONAL MARKETS FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES WITH A FIRING TEMPERATURE OF 1,450C, THROUGH 2021
Table 34 : REGIONAL MARKETS FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES WITH A FIRING TEMPERATURE OF 1,400C, THROUGH 2021
Table 35 : REGIONAL MARKETS FOR TBC APPLICATIONS IN POWER GENERATION GAS TURBINES WITH A FIRING TEMPERATURE BELOW 1,400C, THROUGH 2021
Table 36 : GLOBAL MARKET FOR TBC APPLICATIONS IN MARINE DIESEL ENGINES BY FIRING TEMPERATURE, THROUGH 2021
Table 37 : GLOBAL MARKET FOR TBC APPLICATIONS IN MARINE DIESEL ENGINE TURBINES WITH A FIRING TEMPERATURE OF 650C THROUGH 2021
Table 38 : REGIONAL MARKETS FOR TBC APPLICATIONS IN MARINE DIESEL ENGINES WITH A FIRING TEMPERATURE OF 600C, THROUGH 2021
Table 39 : REGIONAL MARKETS FOR TBC APPLICATIONS IN MARINE DIESEL ENGINES WITH A FIRING TEMPERATURE OF 550C, THROUGH 2021
Table 40 : REGIONAL MARKETS FOR TBC APPLICATIONS IN MARINE DIESEL ENGINES WITH A FIRING TEMPERATURE OF 500C, THROUGH 2021
Table 41 : REGIONAL MARKETS FOR TBC APPLICATIONS IN MARINE DIESEL ENGINES WITH A FIRING TEMPERATURE BELOW 500C, THROUGH 2021
Table 42 : COMMERCIAL MODELS/MAKES OF AERO ENGINE GAS TURBINES THAT REQUIRE THERMAL BARRIER COATINGS
Table 43 : REPRESENTATIVE SAMPLE OF TBC SYSTEMS IN PRATT & WHITNEY GAS TURBINE ENGINES
Table 44 : REPRESENTATIVE SAMPLE OF TBC ARCHITECTURES FOR AIRCRAFT TURBINE HOT SECTION COMPONENTS ADOPTED BY PRATT & WHITNEY
Table 45 : TBC ARCHITECTURE OF AIRCRAFT GAS TURBINES ADOPTED BY NASA
Table 46 : TBC ARCHITECTURE OF AIRCRAFT GAS TURBINES ADOPTED BY MTU GERMANY
Table 47 : TBC ARCHITECTURE ADOPTED BY THE ELECTRIC WELDING INSTITUTE OF NATIONAL ACADEMY OF SCIENCE OF UKRAINE
Table 48 : DESCRIPTIONS OF SULZER POWER GENERATION GAS TURBINE COMPONENTS EQUIVALENT TO SIEMENS AND GE MODELS
Table 49 : REPRESENTATIVE SAMPLE OF TBC SYSTEMS IN GAS TURBINE ENGINES USED FOR POWER GENERATION AND INDUSTRIAL GAS TURBINES
Table 50 : THERMAL BARRIER COATINGS ARCHITECTURE ADOPTED FOR GAS TURBINES WITH A FIRING TEMPERATURE OF 1,500C ADOPTED BY MITSUBISHI HITACHI POWER SYSTEMS
Table 51 : THERMAL BARRIER COATING ARCHITECTURE IN POWER GENERATION AND INDUSTRIAL GAS TURBINES ADOPTED BY SIEMENS INDUSTRIAL TURBOMACHINERY AB
Table 52 : TBC ARCHITECTURE FOR GAS TURBINES WITH A FIRING TEMPERATURE OF 1,600C ADOPTED BY MITSUBISHI HEAVY CORP. AND MITSUBISHI HITACHI POWER CORP
Table 53 : TBC ARCHITECTURE ADOPTED BY FORSCHUNGSZENTRUM JULICH GMBH GERMANY FOR GAS TURBINES* WITH A FIRING TEMPERATURE OF 1,600C
Table 54 : TBC ARCHITECTURE ADOPTED IN DIESEL ENGINES FOR MARINE APPLICATIONS
Table 55 : APPLICATION OF CURRENT TBC SYSTEMS DIESEL ENGINES FOR MARINE AND OTHER APPLICATIONS
Table 56 : OPERATING TEMPERATURE AND STRESS STATE COMPARISON BETWEEN DIESEL ENGINE AND TURBINE
Table 57 : U.S. PATENTS GRANTED FOR TBC TECHNOLOGY, JAN. 2012 TO JULY 2016
Table 58 : U.S. TBC TECHNOLOGY PATENTS BY ASSIGNEE COUNTRY, JAN. 2012 TO JULY 2016
Table 59 : TOP U.S. TBC TECHNOLOGY PATENT HOLDERS, JAN. 2012 TO JULY 2016
Table 60 : THERMAL BARRIER COATING COMPANY ACQUISITIONS AND MERGERS, 2011-2016
Table 61 : RECENT EXPANSIONS MADE BY THERMAL BARRIER COATING COMPANIES, 2011-2016

List of Chart

Summary Figure : GLOBAL MARKET FOR THERMAL BARRIER COATING TECHNOLOGIES BY APPLICATION INDUSTRY, 2015-2021
Figure 1 : GLOBAL MARKET SHARE FOR THERMAL BARRIER COATINGS BY ARCHITECTURE, 2016 AND 2021
Figure 2 : GLOBAL MARKET SHARE FOR TBC TECHNOLOGIES BY APPLICATION INDUSTRY, 2016 AND 2021
Figure 3 : GLOBAL MARKET SHARE FOR THERMAL BARRIER COATING BY DEPOSITION PROCESS, 2016 AND 2021
Figure 4 : GLOBAL MARKET SHARE FOR TBC IN AIRCRAFT GAS TURBINE APPLICATIONS BY TYPE OF PROVIDER, 2016 AND 2021
Figure 5 : REGIONAL MARKETS FOR THERMAL BARRIER COATINGS IN AIRCRAFT GAS TURBINE APPLICATIONS, 2016 AND 2021
Figure 6 : GLOBAL MARKET FOR THERMAL BARRIER COATINGS IN POWER GENERATION GAS TURBINE APPLICATIONS BY TYPE OF PROVIDER, 2016 AND 2021
Figure 7 : REGIONAL MARKETS FOR THERMAL BARRIER COATINGS IN POWER GENERATION GAS TURBINE APPLICATIONS, 2016 AND 2021
Figure 8 : REGIONAL MARKETS FOR THERMAL BARRIER COATINGS IN MARINE DIESEL ENGINE APPLICATIONS, 2016 AND 2021
Figure 9 : EVOLUTION OF ALLOWABLE GAS TEMPERATURE AT THE ENTRY TO THE GAS TURBINE
Figure 10 : COMBUSTION LINER WITH SIX NOZZLES*
Figure 11 : TRANSITION PIECE*
Figure 12 : VANES OR NOZZLES*
Figure 13 : HEAVY DUTY INDUSTRIAL BLADE
Figure 14 : AERODERIVATIVE BLADE OR BUCKET
Figure 15 : AIR PLASMA SPRAYING
Figure 16 : HIGH VELOCITY OXYGEN FUEL
Figure 17 : APPROXIMATE REGIMES OF HIGH TEMPERATURE ENVIRONMENTAL ATTACK
Figure 18 : HIGH TEMPERATURE COATING PROTECTION OF THE BASE METAL
Figure 19 : GAS ENGINE SHOWING DIFFERENT SECTIONS ALONG THE ENGINE WITH CORRESPONDING PRESSURE AND TEMPERATURE PROFILES
Figure 20 : EXAMPLE OF A CROSS-SECTIONAL IMAGE OF A TBC SYSTEM ON AN AERO TURBINE BLADE
Figure 21 : MUTILAYER TBCS USED IN THE HOT SECTIONS OF IGCC OR GAS TURBINE GTCC TURBINES IN THE POWER GENERATION INDUSTRY
Figure 22 : LIFETIME IMPROVEMENTS WITH THE USE OF THERMAL BARRIER COATINGS IN CYCLIC DIESEL ENGINE TESTS

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