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Chemical Report
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Fine & Specialty Chemicals(Á¤¹ÐÈ­ÇÐ/½ºÆä¼ÈƼÄɹÌÄ®) Á¦Á¶ ¿ø´ÜÀ§ ¹× ÇÁ·Î¼¼½º(»ó,ÇÏ)
ÃѺз® : 442ÂÊ(A4)
°¡°Ý : 88¸¸¿ø
¹ßÇàÀÏ : 2016³â3¿ù
¹ßÇàó : Cischem
Directory of Chemical Products and Producers in China 2012
ÃѺз® : 1,082ÂÊ
Ã¥°¡°Ý : 70¸¸¿ø
¹ßÇàÀÏ : 2012³â3¿ù
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(°¡)¼Ò¼º Plasticity
(°íºÐÀÚÀÇ)Ư¼º Á¶»ç Characterization (of polymer)
°¡°¨¼º(Áú) Additive property
°¡°ø Fabrication
°¡°ø Finishing
°¡°ø±â¼ú Processing technology
°¡°ø¼º Processability
°¡°ø¾÷ÀÚ Fabricator
°¡°ø¾÷ü Fabricator
°¡°øÁ¶Á¦ Processing aid
°¡±³ Bridge formation
°¡±³ °áÇÕ Crosslinkage
°¡±³ ±×¹° Crosslinked[ing] network
°¡±³ ¸Á Crosslinked[ing] network
°¡±³ ¹Ðµµ Crosslinked[ing] density
°¡±³ ÁßÇÕü[°íºÐÀÚ] Crosslinked[ing] polymer
°¡±³(¹ÝÀÀ) Crosslinking
°¡±³µµ Degree of crosslinking
°¡±³Á¦ Crosslinking agent
°¡·Á ¸·±â È¿°ú Effect, shielding
°¡·Î ¹æÇâ Crosswise
°¡¸®¿ò Screening
°¡¸®¿ò »ó¼ö Shielding constant
°¡¸®¿ò ÀúÇ× Masking resistance
°¡¸®¿ò È¿°ú Shielding effect
°¡¸®¿òÁ¦ Masking agent
°¡¸®¿öÁø ÇüÅ Eclipsed conformation
°¡¹æ¼º Spinnability
°¡º£ÀÌ ´ÙÀÌÇü ¾ÐÃâ ½ÃÇè Extrusion test, Garvey die
°¡º£ÀÌƲ ¾ÐÃà½ÃÇè Garvey die extrusion test
°¡¼Òµµ°è Plastometer
°¡¼ÒÁ¦ Plasticizer
°¡¼ÒÈ­ Plasticization
°¡¼ÒÈ­ ¿Âµµ Plasticizing temperature
°¡¼ÒÈ­ È¿À² Plasticizing efficiency
°¡¼ö ºÐÇØ Hydrolysis
°¡¼ö ºÐÇØ »ó¼ö Hydrolysis constant
°¡¼ö ºÐÇØ È¿¼Ò Hydrolase
°¡¼ö ÁßÇÕ(¹ÝÀÀ) Hydrolytic polymerization
°¡¼ö¼Ò ºÐÇØ Hydrogenolysis
°¡½º Gas
°¡¾ËÄÚ¿Ã ºÐÇØ Alcoholysis
°¡¾Ï¸ð´Ï¾Æ ºÐÇØ Ammonolysis
°¡¾Ï¸ð´Ï¾Æ »êÈ­ Ammoxidation
°¡¾Ð°ø±Þ(¹ý) Pressure feed
°¡¾ÐÈ帧 Pressure flow
°¡¿¡Åº¿Ã ºÐÇØ Ethanolysis
°¡¿ª(¼º) Reversion
°¡¿ª(¼º)ÀÇ Reversible
°¡¿ª¼º Reversibility
°¡¿¬¼º Flammability
°¡¿­ ¸ÁÅÂ(±â) Heating mantle
°¡¿­ Á¦°Å ¹ÝÀÀ Elimination, thermal
°¡¿­±âÁ¢Âø Heated-tool bonding
°¡¿­ÆÇ Hot plate
°¡¿ÀÁ¸ ºÐÇØ Ozonolysis
°¡¿ë¸Å ºÐÇØ Solvolysis
°¡¿ë¼º Soluble
°¡¿ëÈ­ Solubilization
°¡ÀÎ»ê ºÐÇØ Phosphorolysis
°¡Áö °áÁ¤ Branching coefficient
°¡Áö °è¼ö Branching coefficient
°¡Áö °íºÐÀÚ Branched polymer
°¡Áö ´ÜÀ§ Branching unit
°¡Áö ¹Ðµµ Branching density
°¡Áö »ç½½ Branched chain
°¡Áö ÀÎÀÚ Branching parameter
°¡ÁöÁ¡ Branching point
°¡ÁöÈ­ Branching
°¡ÇÒ·Î°Õ ºÐÇØ Halogenolysis
°¡È­ ¼¶À¯ Vulcanizing fiber
°¡È² Sulfur vulcanization
°¡È² °í¹« Vulcanized rubber
°¡È² ÃËÁøÁ¦ Vulcanization accelerator
°¡È²Á¦ Vulcanizing agent
°¡È²È­(¹ÝÀÀ) Vulcanization
°¢±âµÕ Prism
°¢¿îµ¿·® Angular momentum
°£°Ý Spacing
°£°ÝÀÚ Spacer
°£·« ±¸Á¶½Ä Condensed formula
°¥¶ó³õ±â Segregation
°¥¶óÁü ¾ç½Ä Splitting pattern
°¥¾Æ ¸ÂÃã ¿¬°á°ü[±â] Ground joint
°¨±¤¼º °íºÐÀÚ Photosensitive polymer
°¨±¤Áö Photosensitive paper
°¨±Ø Depolarization
°¨±ØÀ² Depolarization ration
°¨±ØÁ¦ Depolarizer
°¨µµ Sensitivity
°¨¸¶¼± Gamma ray
°¨¸¶¼± º¹»ç Gamma radiation
°¨¸¶¼± Çü±¤ ºÐ±¤¹ý(ÇÐ) Gamma ray fluorescence spectroscopy
°¨¼â Damping
°¨¼â Dissipation
°¨¾Ð °Å¸£±â Suction filtration
°¨¾Ð ¿©°ú Filtration, suction
°¨¾Ð Á¢ÂøÁ¦ Pressure sensitive adhesive
°¨¾Ð Áõ·ù Distillation, reduced pressure
°¨¾Ð ÆßÇÁ Suction pump
°¨¾Ð Çöó½ºÅ© Suction flask
°¨¾Ð(¼º) Á¢ÂøÁ¦ Adhesive, pressure sensitive
°¨¾Ð¼º(ÀÇ) Pressure sensitive
°¨¾ÐÁö Pressure sensitive paper
°¨¿­ µµ·á Heat sensitive paint
°¨¿ë¸Å¼º Á¢ÂøÁ¦ Solvent sinsitive adhesive
°­µµ ¼¼±â Strength
°­µµ ÀÎÀÚ Intensity factor
°­¼º Rigidity
°­¼ºµµ Stiffness
°­¿­ Ignition
°­¿­ °¨·® Ignition loss
°­¿­ ½ÃÇè Ignition test
°­À¯Àü¼º Ferroelectric
°­Àμº Toughness
°­ÀÚ¼º Ferromagnetism
°­Àü±â¼º Ferroelectric
°­ÀüÇØÁú Strong electrolyte
°­È­ Reinforcement
°­È­ ¹ÝÀÀ »çÃâ ¼ºÇü Reinforced reaction injection molding
°­È­ ¼¶À¯ Reinforced fiber
°­È­ ÃæÁøÁ¦ Reinforcing filler
°­È­ Çöó½ºÆ½ Reinforced plastics
°­È­Á¦ Reinforcing agent
°³½Ã Initiation
°³½Ã ´Ü°è Initiation step
°³½Ã À̵¿ Á¾°áÁ¦ Iniferter
°³½ÃÀ̵¿Á¦ Inifer
°³½ÃÀÎÀÚ Initiator
°³½ÃÁ¦ Initiator
°³½ÃÁ¦ ¹Ý°¨±â Initiator half-life
°³½ÃÁ¦ È¿À² Initiator efficiency
°³Áú Modification
°³Áú Reforming
°³Áú¹° Reformate
°³ÁúÀ¯ Reformate
°³ÁúÁ¦ Modifier
°³È¯ Ring opning
°³È¯ ÁßÇÕ Ring opening polymerization
°³È¯ ÁßÇÕ Ring scission polymerization
°Å´ë ´Ü·®Ã¼ Macromer
°Å´ë ºÐÀÚ Giant molecule
°Å´ë ÀÌ¿Â½Ö Macroion pairs
°Å¸£°Ô ÇÊÅÍ Filter
°Å¸£±â Filtration
°Å¸¥¾× Filtrate
°Å¸§Á¾ÀÌ Filter paper
°Å½ÃÀû Macroscopic
°Å¿ï»ó(À̼ºÁú)ü Enantiomer
°Å¿ï»ó(À̼ºÁú)ü Enantiomorph
°ÅÄ£ ½Ç Rove
°Åħ Roughness
°ÅÇ° Foam
°ÅÇ° ¾ïÁ¦Á¦ Antifoaming agent
°ÅÇ°(È­) Foaming
°Ç¼ºÀ¯ Drying oil
°Ç½Ä ¹æ»ç Dry spinning
°Ç½Ä¹ý Dry process
°ÇÀüÁö Dry cell
°ÇÁ¶°ü Drying tube
°ÇÁ¶±â Drier
°ÇÁ¶±â Dryer
°ÇÁ¶±â Oven
°ÇÁ¶Á¦ Drier
°ÇÁ¶Á¦ Dryer
°ÇÁ¶Á¦ Drying agent
°Ë·® Calibration
°Ë·® Calibration
°ËÁ¤ °î¼± Calibration curve
°ËÃâ Detection
°ËÃâ±â Detector
°ËÆÄ Detection
°ËÆıâ Detector
°Ì½Ä ¾ÐÃâ Dry extrusion
°Ñº¸±â ´Ù°øµµ Apparent porosity
°Ñº¸±â ¹Ðµµ Apparent density
°Ñº¸±â Á¡(¼º)µµ Apparent viscosity
°Ô °Å¸£±â Gel filtration
°Ö Gel
°Ö ÀÔÈû Gel coat
°Ö¹æ»ç Gel spinning
°ÖÀÌ·Ð Gel theory
°ÖÁßÇÕü Gel polymer
°ÖÅõ°ú Å©·Î¸¶Åä±×·¡ÇÇ Gel permeation chromatography(GPC)
°ÖÈ­ Gelation
°ÖÈ­ ¹æÁöÁ¦ Antigelling agent
°ÖÈ­½Ã°£ Gel time
°ÖÈ­Á¡ Gel point
°ÖÈ¿°ú Gel effect
°ÝÀÚ Lattice
°á¼Õ È¿¼Ò Apoenzyme
°áÁ¤ Crystal
°áÁ¤ °ÝÀÚ Cryatal lattice
°áÁ¤ °áÇÔ Crystal defect
°áÁ¤ ¹Ðµµ Crystalline density
°áÁ¤ ¹èÇâ Crystalline orientation
°áÁ¤ ºÐ»ê Crystalline dispersion
°áÁ¤ ºÐ¼® Crystal analysis
°áÁ¤ ¼ºÀå Crystal growth
°áÁ¤ ¿µ¿ª Crystalline region
°áÁ¤°è Syatem
°áÁ¤µµ[¼º] Crystallinity
°áÁ¤»ç Crystalline yarn
°áÁ¤¼º °íºÐÀÚ Crystalline polymer
°áÁ¤¼º ¹êµå Crystalline band
°áÁ¤¼ö Water of crystallization
°áÁ¤Áú Crystalloid
°áÁ¤Ã¼ Crystal
°áÁ¤È­ Crystallization
°áÁ¤È­ ¿Âµµ Crystallization temperature
°áÁ¤È­µµ Degree of crystallinity
°áÁ¤È­µµ Degree of crystallization
°áÇÔ °ÝÀÚ Defect lattice
°áÇÔ ±¸Á¶ Defect structure
°áÇÕ Combination
°áÇÕ Concatenation
°áÇÕ Linkage
°áÇÕ °­µµ Bond sterngth
°áÇÕ °í¹« Bond rubber
°áÇÕ ±æÀÌ Bond length
°áÇÕ ¼¼±â Bond sterngth
°áÇÕ ¿¡³ÊÁö Bond energy
°áÇÕ À̼ºÁú Çö»ó Linkage isomerism
°áÇÕ Çظ® ¿¡³ÊÁö Bond dissociation energy
°áÇÕ°¢ Bond angle
°áÇÕ¼º ±Ëµµ ÇÕ¼ö Bonding orbital
°áÇÕ¼º ºÐÀڱ˵µ ÇÔ¼ö Bonding molecular orgital
°áÇÕÁ¦ Binder
°áÇÕÁ¦ Coupling agent
°ãºû»ì ºÐ±¤°è Double-beam spectrometer
°ã¿° Double salt
°ãħ Overlap
°æ°è Á¶°Ç Boundary condition
°æ°è ħ°­ Boundary sedimentation
°æ°è¸é À±È°À¯ Boundary lubricant
°æ°èÃþ Boundary layer
°æµµ Hardness
°æµµ ½ÃÇè±â Hardness tester
°æµµ°è Durometer
°æµµ°è ´ÜÀ§ Durometer unit
°æÀï ¹ÝÀÀ Competing reaction
°æÀï ¹æÇØ Competitive inhibition
°æÀï ÀúÇØ Competitive inhibition
°æÁ÷ ¸·´ë °íºÐÀÚ Rigid rod polymer
°æÁ÷ »ç½½ Rigid chain
°æÁ÷¼º Rigidity
°æÁú °í¹« Hard rubber
°æÁú ¹ßÆ÷Á¦ Rigid foam
°æÁú Çöó½ºÆ½ Rigid plastics
°æÈ­ Cure
°æÈ­ Curing
°æÈ­ ÃËÁøÁ¦ Curing accelerator
°æÈ­µµ Degree of cure
°æÈ­À¯ Hardende oil
°æÈ­Á¦ Curing agent
°æÈ­Á¦ Hardner
°ç»ç½½ Side chain
°ç»ç½½ ¾×Á¤ÁßÇÕü Side chain liquid crystal polymer
°è System
°è¸é Àå·Â Interfacial tension
°è¸é ÃàÁßÇÕ Interfacial polucondensation
°è¸é È°¼ºÁ¦ Surface active agent
°è¸é È°¼ºÁ¦ Surfactant
°è»ê[Àú»ê±â¹ý] Computational technique
°è¼ö Coefficient
°è¼ö Factor
°è¼ö±â Counter
°è¼öÀ² Counting rate
°í¸® ±¸Á¤ Ringed spherulite
°í¸® ±Ý¼ÓÈ­ Cyclometalation
°í¸® º¯Çü Ring strain
°í¸® ºÎ°¡ Ring addition
°í¸® ¿Ã¸®°í¸Ó Cycle oligomer
°í¸® ÀÌ·®Ã¼È­(¹ÝÀÀ) Cyclodimerization
°í¸® ġȯ Ring substitution
°í¸® È­ÇÕ¹° Cyclic compound
°í¸® È®´ë Ring enlargement
°í¸® È®´ë Ring expansion
°í¸®-»ç½½ ÆòÇü Ring-chaing equilibrium
°í¸®È­ ºÎ°¡ ¹ÝÀÀ Cycloaddition reaction
°í¸®È­ ºÎ°¡ ÁßÇÕ Cycloaddition polymerization
°í¸®È­ ¼ö¼Ò ÀÌÅ»(¹ÝÀÀ) Cyclodehydrogenation
°í¸®È­ ÁßÇÕ Cyclopolymerization
°í¸®È­ ÁßÇÕü Cyclopolymer
°í¸®È­ ¦ÁöÀ½(¹ÝÀÀ) Cyclocoupling
°í¸®È­(¹ÝÀÀ) Cyclization
°í¸³(ÀüÀÚ)½Ö Lone pair
°í¸³°è Isolated system
°í¸³µÈ Isolated
°í¹« Rubber
°í¹« °­ÀÎÈ­ Rubber-toughening
°í¹« °­ÀÎÈ­ Çöó½ºÆ½ Rubber-toughened plastics
°í¹« ¶óÅؽº Rubber latex
°í¹« ¿ÏÃæ±â Rubber bumper
°í¹« À̼º(Áú)ü Rubber isomer
°í¹« ź¼º Rubber elasticity
°í¹« Ç® Rubber cement
°í¹«°è Á¢ÂøÁ¦ Elastomeric adhesive
°í¹«³ª¹«(·ù) Hevea
°í¹«»ó Æòź ¿µ¿ª Rubbery flow region
°í¹«»ó È帧 ¿µ¿ª Rubbery plateau region
°í¹Ðµµ ¹ßÆ÷ Á¦Ç° High density foam
°í¹Ðµµ Æú¸®¿¡Æ¿·» High density polyethylene
°íºÐÀÚ Macromolecule
°íºÐÀÚ Polymer
°íºÐÀÚ °¡¼ÒÁ¦ Polmeric plasticizer
°íºÐÀÚ µ¿Á·(ü) Polymer homologue
°íºÐÀÚ ¸éÈ°¼ºÁ¦ Polymeric surface active agent
°íºÐÀÚ ºÐº° Fractionation of polymer
°íºÐÀÚ ºí·»µå[È¥ÇÕ¹°] Polymer blend
°íºÐÀÚ ÀüÇØÁú Polyelectrolyte
°íºÐÀÚ ÀüÇØÁú ÀÌ¿Â Polyelectrolyte ion
°íºÐÀÚ ÇÕ±Ý Polymer, alloy
°í»ó ÁßÇÕ Solid state polymerization
°í½ºÇÉ Âø¹° High spin complex
°í¾Ð¼Ü[¹ÝÀÀ(¿ë)±â] Autoclave
°í¿Â °æÈ­ Á¢ÂøÁ¦ Hot setting adhesive
°í¿Â °í¹« Hot rubber
°í¿ëü Solid solution
°í¿ø Plateau
°íÀ¯ ±¤È¸Àüµµ Specific rotation
°íÀ¯ ÀÌ¿ÂÈ­ Specific ionization
°íÀ¯ ÀÌ¿ÂÈ­µµ Specific ionization
°íÀ¯ ÄÝ·ÎÀ̵å Intrinsic colloid
°íÀ¯ ÇÔ¼ö Characteristic function
°íÀ¯ ÇÔ¼ö Eigen function
°íÀ¯°ª Eigen value
°íÀ强 ¿ë¾× Hyrertonic solution
°íÁ¤Á¦ Anchoring agent
°íÁ¤È­ Immobilization
°íÁÖÆÄ °¡¿­ Radio-frequency heating
°íÁÖÆÄ ¿¹¿­ Radio-frequency preheating
°íÁÖÆÄ ¿ëÁ¢ Radio-frequency welding
°íÁÖÆÄ À¯µµ °¡¿­ Radio-frequency induction heating
°íÁÖÆÄ À¯Àü °¡¿­ Radio-frequency dielectric heating
°íü Solid
°íü ¶ó¼¼¹Ì È¥ÇÕ¹° Conglomerate
°íü ¿ë¾× Solid solution
°íü»ó Solid phase
°íü»ó¹ý Solid-phase technique
°íüȭ Solidification
°î·ü Curvature
°î¼± Curve
°ñ°Ý Backbone
°ñÆÇ Corrugated board
°õÆÎÀÌ ¹æÁö µµ·á Antifungal paint
°ø°£ ¾çÀÚÈ­ Space quantization
°ø±â »êÈ­ Air oxidation
°ø±â ÁßÅÁ Air bath
°ø±âÁ¦°Å Deaeration
°ø´Ü·®Ã¼ Comonomer
°øµ¿ Cavity
°øµ¿Ä§Àü Coprecipitation
°øµ¿È­ Cavitation
°ø¸í Resonance
°ø¸í ¹æÃâ Resonance emission
°ø¸í ¾ÈÁ¤È­ Resonance stabilization
°ø¸í ¿¡³ÊÁö Resonance energy
°ø¸í È¥¼º(ü) Resonance hybrid
°ø¸í È¿°ú Resonance effect
°øºñ °øÁ¤ Azeotropic process
°øºñ °øÁßÇÕ Azeotropic copolymerization
°øºñ Á¶¼º Azeotropic composition
°øºñ Áõ·ù Azeotropic distillation
°øºñ È¥ÇÕ¹° Azeotropic mixture
°øºñ È¥ÇÕ¹° Constant boiling mixture
°øºñÁ¡ Azeotropic point
°ø¼Ò Void
°ø½ÃÇè Blank test
°ø½Ä Formula
°ø¾ÐÃâ Coextrusion
°ø¾× Conjugation
°ø¾× °íºÐÀÚ Conjugated polymer
°ø¾×±º Conjugate group
°ø¿ªÃ¼ Donor
°øÀ¯ (°áÇÕ) ¹ÝÁö¸§ Covalent radius
°øÀ¯ °áÇÕ Covalent bond
°øÀ¯ °áÇÕ È­ÇÕ¹° Covalent compound
°øÀ¯ ¿øÀÚ°¡ Covalece
°øÀ¯ ÀüÀÚ Shared electron
°øÀ¯ Á¡(¼º)µµ Intrinsic viscosity
°øÀ¶Á¡ Eutectic point
°øÁ¤ Process
°øÁ¤ÀÌ·Â Process history
°øÁ¤Á¦¾î Process control
°øÁßÇÕ(¹ÝÀÀ) Copolymerization
°øÁßÇÕü Copolymer
°øÃ˸ŠCocatalyst
°øÃ˸ŠÀÛ¿ë Cocatalysis
°øħ Coprecipitation
°øÅë ÀÌ¿Â È¿°ú Common ion effect
°ú³Ã(°¢) ¾×ü Supercooled liquid
°ú³Ã°¢ Supercooling
°úµµ Çö»ó Transient phenomenon
°ú¸³»ó ÁßÇÕ Granulaar polymerization
°ú»êÈ­ º¥Á¶ÀÏ Benzoyl peroxide
°ú»êÈ­¹° Peroxide
°ú»êÈ­¹° °æÈ­ Peroxide cure
°ú»êÈ­»ê Peroxy-acid
°ú¿­ Superheating
°ú¿­ ¾×ü Super heated liquid
°úÁ¤ Process
°úÆ÷È­ Supersaturation
°úÆ÷È­µÈ Supersaturated
°ü È¿À² Column efficiency
°ü´É±â Functional group
°ü¼º ¹ÝÁö¸§ Radius of gyration
°üÇü Çʸ§ Tubular film
°üÇü¹ÝÀÀ±â Tubular reactor
±¤ °³½ÃÁ¦ Photoinitiator
±¤°¢ X-¼± »ê¶õ Wide Angle X-ray Scattering(WAXS)
±¤µµ(ÃøÁ¤)°è Photometer
±¤·®°è Actinometer
±¤¹° ¼¶À¯ Mineral fiber
±¤¹°Áú Mineral
±¤¹ÝÀÀ Photoreaction
±¤ºÐÇØ Photodecomposition
±¤ºÐÇØ Photodegradation
±¤ºÐÇØ Photolysis
±¤ºÐÇØ ¹ÝÀÀ Photolytic reaction
±¤»ê¶õ Light scattering
±¤»êÈ­ Photo-oxidation
±¤¼¶À¯ Optical fiber
±¤¾ÈÁ¤Á¦ Light stabilizer
±¤¿¡Äª Photoetching
±¤ÀÌ·®Ã¼È­(¹ÝÀÀ) Photodimerization
±¤ÀÚ Photon
±¤Àü È¿°ú Photoelectric effect
±¤Àü°ü Phototube
±¤Àüµµ¼º Photoconductive
±¤Àüµµ¼º °íºÐÀÚ Photoconductive polymer
±¤ÀüÁö Photocell
±¤ÁßÇÕ Photopolymerization
±¤Áõ°¨ ¹ÝÀÀ Photosensitized reaction
±¤Áõ°¨ ÁßÇÕ Photosensitized polymerization
±¤Åº¼º Photoelasticity
±¤Åà Gloss
±¤ÇÐ À̼º Optical isomerism
±¤ÇÐ À̼ºÁú(Çö»ó) Optical isomerism
±¤ÇÐ Çö¹Ì°æ Optical microscope
±¤ÇÐ È°¼º(µµ) Optical activity
±¤ÇÐÀû °ËÃâ Àڱ⠰ø¸í(¹ý) Optical detected magnetic resonaance(ODMER)
±¤ÇÐÀû À̹漺 Optical anisotropy
±¤ÇÐÀû À̼ºÁúü Optical antipode
±¤ÇÕ¼º Photosynthesis
±¤È­ÇÐ Photochemistry
±¤È­ÇÐ ¹ÝÀÀ Photochemical reaction
±¤È­ÇÐÀû °³½Ã Photochemical initiation
±¤È­ÇÐÀû °í¸®È­ ÷°¡¹ÝÀÀ Photocycloaddition
±¤È¸Àü Optical rotation
±«»óÁßÇÕ Mass polymerization
±³´ë °øÁßÇÕü Alternating copolymer
±³Â÷ ¼ºÀå Cross-propagation
±³Â÷ ÀûÃþÇ° Crosswise laminate
±³Â÷ ÀüÆÄ Cross-propagation
±³Â÷ ÃàÇÕ Crossed condensation
±³Â÷ Æí±Ø Exchange capacity
±³È¯ ¹ÝÀÀ Exchange reaction
±³È¯´ë ¸ðµ¨ Switchboard model
±¸¸® Copper
±¸¸® ¾Ï¸ð´Ï¾Æ ·¹ÀÌ¿Â Cuprammonium rayon
±¸¸® ¾Ï¸ð´Ï¾Æ ¼¶À¯ Cuprammonium fiber
±¸½½ ÁßÇÕ Bead polymerization
±¸¿ª Zone
±¸¿ª ħ°­ Band sedimentation
±¸Á¤ Spherulite
±¸Á¤°áÁ¤È­ Spherulitic crystallization
±¸Á¶ Structure
±¸Á¶ ¹ßÆ÷ü Syntactic foam
±¸Á¶ À̼ºÁúü Constitutional isomer
±¸Á¶¼º Constitutive property
±¸Á¶¿ë ¹ßÆ÷Á¦ Structure foam
±¸Å¸Æ丣ī Gutta percha
±º Group
±ºÀ̵¿ ÁßÇÕ Group transfer polymerization
±ºÁý Association
±¼°î Curvature
±¼°î Flexure
±¼°î °­µµ Flexural strength
±¼°î °­¼º Flexural rigidity
±¼°î ¼ö¸í Flex life
±¼°î ¿Âµµ Flex temperature
±¼°î ź¼ºÀ² Flexural modulus
±¼°îÀÀ·Â Flexural stress
±¼¶Ò Funnel
±¼Àý Refraction
±¼Àý°è Refractometer
±¼Àý·ü Index of refraction
±¼Àý·ü Refractive index
±ÁÈû °­µµ Bending strength
±ÁÈû °­µµ Flexural strength
±ÁÈû ½ÃÇè Bending test
±ÁÈû ÀúÇ×(¼º) Bending resistance
±ÁÈû Áøµ¿ Bending vibration
±ÇÃë±â Reeling machine
±Ëµµ °¢¿îµ¿·® Orbital angular momintum
±Ëµµ ÇÔ¼ö ÀüÀÚÆ÷ȹ Orbital electron capture
±Ëµµ ÇÔ¼ö(»óÅÂ) Orbital
±Ëµµ ÇÔ¼ö(»óÅÂ)È¥¼º Orbital hybridization
±ËµµÀÇ Orbital
±Í±Ý¼Ó Noboe metal
±Ô°ÝÈ­ Sizing
±ÔÄ¢Àû °íºÐÀÚ Ordered polymer
±Õ¿­ Crack
±Õ¿­ Dissociation
±ÕÀÏ ¹ÝÀÀ Homogeneous reaction
±ÕÀÏ ºÐÇØ Homolysis
±ÕÀÏ ÁßÇÕ Homoheneous polymerization
±ÕÀÏ°è Homogeneous system
±ÕÁú°è Homogeneous system
±ÕÇü ºÐÇØ Homolytic cleavage
±ÕÇü ºÐÇØ(¹ÝÀÀ) Homolysis
±ÕÇü Àý´Ü Homolytic cleavage
±×¶óºñ¾Æ Àμâ Gravure printing
±×¶óÇÁÆ® °øÁßÇÕü Graft copolymer
±×¶óÇÁÆ®À² Degree of grafting
±×¸²ÀÚ¹ý Shadowung
±Ø¼º Polarity
±Ø¼º °áÇÕ Polar linkage
±Ø¼º ¶óµðÄ® Polar radical
±Ø¼º ¿ë¸Å Polar solvent
±Ø¼º ¿øÀÚ´Ü[±â] Polar group
±Ø¼º(ÀÇ) Polar
±Ø¼º±â Polar group
±ØÇÑ ¹ýÄ¢ Limiting law
±ØÇÑ ¼ºÁú Ultimate properties
±ØÇÑ ¾Ð·Â Limiting pressure
±ÙÀû¿Ü¼± Near infrared
±Û¸®Äڽõå Àü´Þ È¿¼Ò Transglycosidase
±ÜÈû¼º ½ÃÇè Scratch test
±Ý°­»ç Carborundum
±Ý¼Ó Metal
±Ý¼Ó °áÇÕ Metallic bond
±Ý¼Ó °áÇÕ ¹ÝÁö¸§ Metallic bond radius
±Ý¼Ó ¼¶À¯ Metallic fiber
±Ý¼Ó ¾ÈÁ¤Á¦ Metallic stabilizer
±Ý¼Ó ÄÚÆà Metallic coating
±Ý¼Ó°£ È­ÇÕ¹° Intermetallic compound
±ÝÁöÁ¦ Inhibitor
±ÝÇü Die
±ÝÇü Mold
±ÝÇü °æÈ­ Mold cure
±ÝÇü ¼³°è Mold design
±ÝÇü È帧 Mold folw
±Þ³Ã Quench
±Þ³Ã Quenching
±Þ³Ã °ø±â¼Óµµ Quench air speed
±Þ³Ã °ø±â¿Âµµ Quench air temperature
±â Radical
±â Group
±â(ü)È­ Vaporization
±â°èÀû °áÇÕ Mechanical bonding
±â°èÀû ¼ºÁú Mechanical property
±â°èÀû ¾ÈÁ¤µµ Mechanical stability
±â°èÀû ¿­ºÐ¼® Mechanical thermal analysis
±â°èÀû ¿ÏÈ­ Mechanical relaxation
±â°èÀû Á¢Âø Mechanical adhesion
±â°èÀû ÇØÁßÇÕ Mechanical depolymerization
±â°ø Vesicle
±â±¸ Mechanism
±â±â ºÐ¼® Instrumental analysis
±â·Ï°è[±â] Recorder
±â¸§ ÁßÅÁ Oil bath
±âº» ´ÜÀ§ Base unit
±âºÎ Base
񃯢 Vapor phase
±â»ó ºÐÇØ Vapor phase cracking
±â»ó ÁßÇÕ Vapor phase polymerization[gas]
±â¿ï±â ¿ë¸® Gradient elution
±â¿ï±â ¿ëÃâ Gradient elution
±â¿ï¿© µû¸£±â Decantation
±âÀ½ Knocking
±âÀ½ Knocking
±âÀ̵¿ ÁßÇÕ(¹ÝÀÀ) Group transfer polymerization
±âÀü·Â Electromotive force
±âÁØ Àü±Ø Reference electrode
±âÁØ Áøµ¿ Normal vibration
±âÁؼ± Base line
±âÁú Matrix
±âÁú Substrate
±âü Gas
±âü ¹ÝÀÀ Gas reaction
±âü ºÐ¸® Gas separation
±âü ºÐ¼® Gas analysis
±âü »ó¼ö Gas constant
±âü Á¦°Å Degassing
±âü Å©·¹¸¶Åä±×·¡ÇÇ Gas chromatography
±âü Åõ°ú¼º[µµ] Gas permeability
±âü(¹æÁ¤)½Ä Gas equation
±âü-°íü Å©·Î¸¶Åä±×·¡ÇÇ Gas-solid chromatography
±âü»ó Gas phase
±âü»ó ÁßÇÕ(¹ÝÀÀ) Gas phase polymerization
±âü-¾×ü Å©·Î¸¶Åä±×·¡ÇÇ Gas-liquid chromatography
±âÆ÷ Cell
±âÆ÷Á¦ Blowing agent
±âÇÏ ¾Æ¼º(Áú)Çö»ó Geometrical isomerism
±âÇÏÀ̼ºÃ¼ Geometric(al) isomer
±âÇÙÁ¦ Nucleating agent
±âÈ£ Character
±âÈÄ´ë Climatic zone
±ò´ë±â Funnel
±ò´ë±â °ÇÁ¶±â Hopper dryer
²©ÀÓ Kink
²®Áú Shell
²®Áú ¼ºÇü(¹ý) Shell molding
²®Áú-¼Ó ±¸Á¶ Skin-core structure
²®Áú-¼Ó ¹æ»ç Sheath-core spinning
²¿¸® ²ø±â Tailing
²¿¸®-²¿¸® °áÇÕ Tail-to-tail linkage
²¿ÀÎ ÇüÅ Twist conformation
²¿ÀÓ Twisting
²¿ÀÓ Áøµ¿ Twisting vibration
²¿Ä¡ ÇüÅ Shish-kebak morphology
²ÒÀÓ Convolution
²ö ºñÆ®¸² ºÐ¼®±â Torsional braid analyzer(TBA)
²ú´ÂÁ¡ Boiling point
²ú´ÂÁ¡ ¿À¸§ Boiling oint elevation
²ú´ÂÁ¡ ¿À¸§ »ó¼ö Boiling point elevation constant
²ú´ÂÁ¡ ¿Ã¸²¹ý Ebullioscopy
²úÀÓÂÊ Boiling chips


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