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Hardened

For concrete work in cold weather a specially rapid-hardening cement may be made by addition of calcium chloride to the cement. [Pg.87]

Photographic material containing gelatin can be hardened during manufacture the process involves cross-linking between the gelatine polypeptide chains induced by hardener. [Pg.188]

In case hardening C and N are introduced into the iron by heating in a Nj —NH3 atmosphere or by immersing the steel in molten NaCN/Na2C03 at about 900"C. [Pg.222]

Austenitic steels retain the ccp structure right down to room temperature. For this reason these steels cannot be hardened by quenching. [Pg.372]

Hardening per RTFOT (Rolling thin-film ouen test) NF T 66-032/ASTM D 2872... [Pg.312]

Once the cementation has been completed the rig will wait on cement (V OC), i.e. wait until the cement hardens prior to running in with a new assembly to drill out the plugs, float collar and shoe, all of which are made of easily drillable materials. [Pg.55]

The chemistry of cement slurries is complex. Additives will be used to ensure the slurry remains pumpable long enough at the prevailing downhole pressures and temperatures but sets (hardens) quickly enough to avoid unnecessary delays in the drilling of the next hole section. The cement also has to attain sufficient compressive strength to withstand the forces exerted by the formation over time. A spacer fluid is often pumped ahead of the slurry to clean the borehole of mudcake and thereby achieve a better cement bond between formation and cement. [Pg.56]

Fig. 1 Beginning stage of pitting origin (hardened structural steel)... Fig. 1 Beginning stage of pitting origin (hardened structural steel)...
Correction for beam hardening artefacts in computerised tomography... [Pg.214]

Inspection of frame equipment and pipe - lines for the presence of the fatigue, hardening, and other cracks, corrosion. [Pg.345]

At the anode, a chemical oxidation reaction is bound to take place. In normal fixers, sulfite (SOj ) is oxidized and acid (H ) is released as a consequence of this oxidation. Due to the decrease of the sulfite concentration and the decrease in the pH, the fixing solution becomes unstable and sulfur precipitation starts to occur when the pH of the fixer decreases below 4.0. In the case of hardening fixers, there is also an upper limit to the pH, since aluminum-hydroxides starts to precipitate when the pH exceeds 5.0. [Pg.606]


See other pages where Hardened is mentioned: [Pg.10]    [Pg.17]    [Pg.18]    [Pg.18]    [Pg.24]    [Pg.25]    [Pg.42]    [Pg.69]    [Pg.87]    [Pg.87]    [Pg.87]    [Pg.87]    [Pg.98]    [Pg.99]    [Pg.103]    [Pg.108]    [Pg.131]    [Pg.176]    [Pg.188]    [Pg.193]    [Pg.206]    [Pg.222]    [Pg.267]    [Pg.276]    [Pg.290]    [Pg.326]    [Pg.326]    [Pg.348]    [Pg.353]    [Pg.373]    [Pg.393]    [Pg.427]    [Pg.290]    [Pg.37]    [Pg.61]    [Pg.208]    [Pg.214]    [Pg.542]   
See also in sourсe #XX -- [ Pg.3 ]




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4,4 -diaminodiphenylmethane hardener

Accelerated hardening

Acid hardener, formula

Acid hardening resin resists

Acid hardening systems

Acid-hardening resist

Acrylic adhesives hardening

Age-hardening

Air hardening

Aliphatic polyamine hardeners

Alloy dispersion-hardened

Alloy steels case-hardening

Alloy steels flame hardening

Alloy steels hardened, abrasive wear

Alloys age-hardenable

Alloys age-hardening

Aluminium precipitation hardening

Aluminium work hardening

Aluminium work-hardenable

Aluminum surface hardening

Amine hardener

Amine hardeners

Amine hardening accelerators

Amine hardening systems

Amino resins, hardening

Aminoplasts hardening

Amorphous dispersion hardening

Amorphous work hardenability

Amorphous work-hardening

Anaerobic adhesives hardening

Anhydride hardeners

Anisotropy hardening

Aromatic polyamine hardeners

Arteries, hardening

Artifact Beam hardening

Austenite hardening

Beam hardening

Beam hardening correction

Best practice for gas-hardened processes

Binder hardening

Blast-hardened structures

Bond hardening

Bond-Hardening process

Bonding process hardening

Boron trifluoride hardeners

Bulk-hardened 2-17 alloys

CERAMICS ARE HARDENED WITH HEAT

Carbide hardening alloys

Carbon steel surface hardening

Carbon steels flame hardening

Case hardened steel

Case hardening

Case hardening applications

Case hardening definition

Case steels high-hardenability

Case steels medium-hardenability

Case-hardened gear

Cast irons flame hardening

Cement hardening

Chemical hardening process

Chemical reaction hardening binders

Chemically hardened adhesives

Chemically hardened adhesives examples

Chromium hardening element

Cold hardeners

Cold hardening

Cold temperature hardening prepreg

Cold temperature hardening prepreg system

Cold-box (amine hardened phenolic urethane)

Cold-working hardening

Comparison of hardening systems

Composites Hardened system

Composition formulation, adhesive hardener

Composition hardener/resin, effect

Concluding Remarks on Hydration Hardening

Cooling Hardening

Cracking of fresh and hardened concrete

Cracking of hardened concrete caused by other factors

Cracks in hardened concrete

Creep work hardening

Crepe hardening

Crystalline Hardener

Curing Agents (Hardeners)

Cyanoacrylate adhesives hardening

Cyclic Hardening (Softening)

Cyclic Hardening and Softening

Cyclic loading strain hardening from

Cyclic strain hardening exponent

Deformation-hardening

Deformation-hardening coefficient

Deformation-hardening rates

Depth-hardened steel

Diamine hardener

Diamine hardeners

Diamond hardening

Diffusion -hardened surfaces

Disorder-order transformation hardening

Dispersion hardening

Dispersion hardening composites

Dispersion-Strengthened and Precipitation-Hardening Alloys

Drying case hardening

Ductility hardening

Ductility precipitation hardened aluminum

Ductility work hardening

Edible oils, hardening

Electron beam-hardened steels

Electron-beam hardening

Elongational Flow and Strain-induced Hardening

Epoxide resins hardening systems

Epoxy adhesives Hardeners

Epoxy adhesives anhydride hardeners

Epoxy adhesives hardening

Epoxy hardener-resin combinations

Epoxy hardeners

Epoxy polymers hardeners

Epoxy resin Hardener

Epoxy resin Hardener systems

Epoxy resins hardening

Epoxy resins hardening agents

Epoxy resins, additives Hardeners

Example Temperature cycling with isotropic hardening

Extension hardening

Extensional-hardening

Fat hardening

Fatigue hardening

Ferrite hardening

Filter paper, hardened

Filter paper, hardened Shark skin

Flame harden

Flame hardened

Flame hardening

Flame hardening applications

Formaldehyde hardener

Fracture precipitation hardening

Fructose 1,6-Diphosphate (Harden-Young Ester)

Gas-hardened processes

Gas-hardened processes emissions

Gelatin hardening

Geometric strain hardening

Glass hardening range

Glassy polymers orientation hardening

Glycidyl ether resins amine hardening systems

Grain-boundary hardening

Gypsum hardening

Harden

Harden

Harden and Young ester

Harden and temper

Harden, Arthur

Harden, Sir Arthur

Harden-Young ester

Hardenability

Hardenability band

Hardenability curves

Hardened cement paste

Hardened concrete

Hardened felt

Hardened inserts

Hardened mixes

Hardened mold steels

Hardened mold surface

Hardened palm kernel oil

Hardened plastic mold steel

Hardened state

Hardened steel machining

Hardened steel surface

Hardener

Hardener

Hardener Hardness

Hardener additives

Hardener for epoxy resins

Hardener, resin

Hardeners

Hardeners

Hardeners Kodak

Hardeners affected

Hardeners aircraft industry

Hardeners binder component

Hardeners dicarboxylic acid anhydrides

Hardeners for epoxy

Hardeners formulas

Hardeners glass transition temperatures

Hardeners phenolic Mannich bases

Hardeners used with epoxy prepolymers

Hardeners, analysis

Hardeners, epoxy resins and

Hardeners, lipids

Hardeners: definition

Hardening

Hardening

Hardening Agent for Rubber Matrix

Hardening Degradation

Hardening Hardness

Hardening Mechanisms of Steels

Hardening Portland cement

Hardening accelerators

Hardening agents

Hardening agents for epoxy adhesives

Hardening and softening

Hardening by chemical reaction

Hardening by cooling

Hardening by solvent or dispersing medium removal

Hardening calcium aluminate cements

Hardening classification

Hardening creep

Hardening crystals

Hardening cyclic

Hardening defined

Hardening effects

Hardening effects composites

Hardening effects of conversion

Hardening exponent

Hardening fixer, formula

Hardening heat treatment

Hardening high-temperature alloys

Hardening index

Hardening isotropic

Hardening kinematic

Hardening law

Hardening lead oxide

Hardening linear

Hardening matrix

Hardening matrix defined

Hardening mechanical

Hardening mechanism in lead-calcium alloys

Hardening mechanisms

Hardening mechanisms in multilayers

Hardening model

Hardening model isotropic

Hardening model kinematic

Hardening of arteries,

Hardening of fats

Hardening of fats and oils

Hardening of oils

Hardening of steel

Hardening of the arteries

Hardening off

Hardening or Curing Agent

Hardening organic

Hardening parameter

Hardening perfectly plastic

Hardening plasma

Hardening polymer

Hardening processes

Hardening rapid

Hardening reactions

Hardening retarders

Hardening rule

Hardening slope

Hardening solution

Hardening spring

Hardening systems

Hardening temperature

Hardening treatment

Hardening tunnel

Hardening zinc oxide

Hardening, glue

Hardness cyclic hardening

Heat hardening equipment

Heat of Hardening

Heat-hardening prepregs

High strain-rate hardening

Hot hardeners

Hydration hardening

Hydration hardening bridging crystals

Hydration hardening chemical modifiers

Hydration hardening gypsum crystals

Hydration hardening internal stresses

Hydration hardening mechanical stresses

Hydration hardening particle bridging

Hydration hardening silica particles

Hydration hardening supersaturation

Induction hardening

Induction hardening applications

Induction-hardened steels

Inverse bond-hardening

Laser hardening

Laser hardening applications

Laser-hardened steels

Later models of hardened paste structure

Lattic hardening

Lattice hardening

Lime hardening, 3.18

Liquid bridges hardening binder

Local hardening

Local strain-hardening

M7 hardened tool steel drill bar

Marshmallow hardening

Mature hardened cement paste

McConnell, Harden

Mechanical strain hardening

Mercaptan hardener

Metals work hardening

Microstructure precipitation-hardened aluminum

Miscellaneous hardener systems

Modified phenolic adhesives hardening

Molybdenum hardening element

Nail hardeners

Natural rubber hardening

Niobium hardening element

Non-hardening embrittlement

Non-proportional hardening

Non-specific hardening

Notch Strain Hardening Effect

Notch strain hardening

Oils, Animal Hardening

Orientation hardening

Orientation hardening amorphous

Orientation hardening crystalline

Oxidative hardening

Paint, hardening

Peroxide hardener

Phenolic adhesives hardening

Phenolic resins hardening

Plant hardening process

Plastic deformation work hardening

Plastic hardening

Plastic mold steels for case hardening

Polyamide hardeners

Polymeric hardener

Polymers chain hardening

Polyurethane adhesives hardening

Possibility of Obtaining Fine Disperse Structures in Melts by Hardening Melt Emulsions

Post-hardening

Pre-hardened mold steel

Pre-hardened plastic mold steel

Precipitate Hardening

Precipitation hardened magnets

Precipitation hardening

Precipitation hardening analysis

Precipitation hardening defined

Precipitation hardening heat treatments

Precipitation hardening mechanism

Precipitation hardening plastic molds steels

Precipitation hardening stainless steels wrought

Precipitation hardening theory

Precipitation hardening wrought stainless

Precipitation hardening wrought stainless Pyromet alloy CTX

Precipitation hardening wrought stainless alloys

Precipitation hardening, aluminum alloys

Precipitation or Age Hardening

Precipitation-Hardening Stainless Steel Family

Precipitation-hardenable stainless

Precipitation-hardenable stainless steels

Precipitation-hardenable steels

Precipitation-hardenable steels cracking

Precipitation-hardened steels, hydrogen embrittlement

Precipitation-hardening alloys, stainless

Precipitation-hardening alloys, stainless steels

Precipitation-hardening stainless steels

Properties of Fresh and Hardened Concrete

Properties of Hardened Concrete

Properties of the hardened composite

Quench hardening

Rapid Hardening and Fast-Setting Cements

Redox hardener system

Refractory hardening elements

Resin, hardener/, composition

Resists acid-hardening

Resol - ester (alkaline phenolics methyl formate hardened)

Rubber matrix hardeners

S-N Curve From Hardening and Grain Size Data

SB-4 Tropical Hardener Bath

SO2 hardened furan resins

Safety hardener

Salt bath hardening

Secondary hardening

Selective Surface Hardening

Selective hardening

Selective hardening treatments

Selective surface-hardened alloy steels

Self-hardening

Self-hardening clay

Setting and Hardening of Cement

Shock hardening

Sintering and Heat Hardening

Skin hardening

Slip hardening

Slip hardening fibres

Solid solution hardening

Solid-Solution Hardening and Softening

Solid-solution hardening elements

Solute clusters hardening

Solute hardening

Specific hardening

Spectrum, thermal neutron, hardening

Spin Casting, Electric Field Poling, and Lattice Hardening

Stainless steels hardening

Steam-Hardened Construction Materials

Steel case hardening

Steel hardenability

Steel hardened

Steel hardening exponent

Steel work hardening

Steel, hardening

Steels age-hardening

Steels flame hardening

Steels high hardenability

Storage hardening

Strain Hardening and Network Density

Strain hardening

Strain hardening and softening

Strain hardening exponent

Strain hardening in glassy polymers

Strain hardening modulus

Strain hardening-softening effects

Strain rate hardening

Strain-hardenable alloys

Strain-hardening at large strains

Strain-hardening behavior

Strain-hardening phenomenon

Strain-hardening response of thin films

Strain-induced hardening

Strain-induced hardening and

Strain-induced hardening and anisotropy

Strength hardening coefficient

Strength of Hardened Concrete

Strengthening (Hardening) in Ceramics by Point Defects

Strengthening hardening

Strengthening mechanisms hardening

Strengthening precipitation hardening

Strengthening solid solution hardening

Strengthening work hardening

Stress harden

Stress hardening

Stress isotropic hardening

Structure and Basic Mechanical Properties of Wrought Age-Hardenable Aluminium Alloys

Structure and Basic Mechanical Properties of Wrought Work-Hardenable Aluminium Alloys

Structure hardenings

Surface hardenable steels

Surface hardening

Surface hardening definition

Surface modification hardening

Temperature on RubCon Binder Hardening and Ways to Reduce It

Temperature winter hardening

The age-hardening of copper-aluminium alloys

The critical resolved shear stress and work hardening

Through hardenable steels

Through-hardenability

Through-hardened elements

Through-hardening

Through-hardening plastic mold steel

Through-hardening steel

Time Hardening Creep

Tool steels hardened, hardness range

Tools hardening/platings

Transformation Hardening

Tungsten hardening element

UV HARDENING

UV image hardening

Unit Hardening Treatment

Very rapidly hardening cements

Winter hardening, plants

Word hardening

Work hardening

Work hardening softening

Work hardening wrought copper

Work-hardening of metals

Yield Function and Hardening Law

Yield and Hardening

Yield isotropic hardening

Yield precipitation hardening

Yield strength precipitation-hardened aluminum

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