表面处理常用分析化学词汇

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玻璃漏斗 Glass funnel long stem
/ H  E: @# L, Z3 g; H试管 test tube test tube brush test tube holder test tube rack
$ O9 f0 ^. E1 N; s8 I6 d. v7 F蒸发皿 evaporating dish small
% D; N5 G& j+ _% k烧杯 beaker
+ {% y0 [" F- _, o8 [/ @锥形瓶 Erlenmeyer
5 ~3 W4 x( V7 A7 X/ W! G量筒 grad cylinder
2 K' \) d! B3 X洗瓶 plastic wash bottle
勺皿 casserole ,small stoppered flask
3 e$ {; J3 H  n& s! J* g: X  _1 c分液漏斗 separalory funnel
2 c& ?; }8 }: }  ^& Ywarter bath/oil bath
! u+ D' [& S- L$ c0 estrring bar
! a2 k4 o; T" G$ f1 qmagnetic stirrer
3 [3 T) C. }( X( j9 v4 D2 f' D冷凝器 condenser
Ballast bottle
' s; [/ g  ?, L0 ^! f圆颈烧瓶 Round-bottom flask
试剂瓶 reagent bottles
' O- ?3 b" \, B1 P' L. M! O托盘天平 platform balance 台秤
7 \, r: b/ q  x! ?% D& P, R$ O! U0.1g 托盘pan 指针刻度表pointer and scale
crossbeams and sliding weights 游码
分析天平 two-pan/single-pan analytical balance
! O& t1 f- ]$ ~& z2 b* A% c7 E5 o滴定管 burette glass bead(basic) nozzle
4 y$ ~" R& s* r5 O0 S移液管 pipette 胖肚 elongated glass bulb
+ r; F: M. O" Z" V! u3 q1 Y; c# X7 e5 ^洗耳球 rubber suction bulb
玻棒 glass rod
玻璃活塞 stopcock
' p* E, p3 b: [  u容量瓶 pyknowmeter flasks
比重瓶 (one-mark)volumetric flasks
胖肚吸管 one-mark pipette
' K$ m& V6 i, ]2 d& v( {6 ]# B) s' w刻度吸管 graduated pipettes
. ^: T4 Y* i  L; s4 x锥形瓶(conical flask) 250ml×4 药匙(medicine spoon)×1
5 u7 [4 H6 ~; v; P  s( B* K3 c9 v8 T(Erlenmeyer flask) 100 ml×3 滴管(drip tube;dropper)×2
烧杯(beaker) 500 ml×1 玻棒(Glass stic)×2
, ?3 n2 e* a0 ^250 ml×3 木试管夹(test tube clamp;test tube holder)×1
) U* m" L, V0 f100 ml×3 胖肚吸管(straws) 25 ml×1
50 ml×2 10 ml×1
容量瓶(volumetric flask) 100 ml×2 乳钵(morta)×1
3 X9 R% z$ G  L) e50 ml×4 洗耳球(ear washing bulb)
碘量瓶 (Iodine numoe flask; iodine flask) 500 ml×3
- S% z" c3 s! W5 E试剂瓶 (reagent bottle) （无色）×2
（棕色）×2 配洗液：
9 B$ d- a% @( l; w8 f. b' @: d量筒（cylinder） 100 ml×1 K2Cr2O72g+5ml水→65mlH2SO4
(graduated cylinder)10ml×1 边加边搅拌(stir)。
" {5 H, c) E8 ?" _- T, K9 O铁支架(siderocradle)+蝴蝶架
白瓷板(White Porcelain Board ) （一）清点仪器(to count;to make an inventory)
酸式滴定管(Acid burette) 25 ml×1 配洗液 (Lotion)
+ u: t* D6 k' ]$ v& t1 U碱式滴定管(Alkali burette)25 ml×1 一般仪器的洗涤
直型冷凝器(rectocondensor)×1 容量瓶(volumetric flask)
漏斗架 (funnel stand) ×2 移液管(pipe)
# k$ @2 y! Z! _9 L& P水浴锅(water bath kettle) ×1
温度计(Thermometer;hygrometer;hydroscope) ×1
6 G; U, r/ f" I) ?' w& ]$ }电炉(electric furnace;electric hot plate;electric stove) 四人一个
# R- X& ?# N% s. _8 O0 t# {0 P分析化学：analytical chemistry
定性分析：qualitative analysis
& P/ s. \( v# P5 |# `' j$ n定量分析：quantitative analysis
物理分析：physical analysis
2 V7 E& h  K) X物理化学分析：physico-chemical analysis
, I4 h' L! w2 D8 m仪器分析法：instrumental analysis
9 p% A7 H1 [2 u& S; k, |流动注射分析法：flow injection analysis；FIA
: a5 c- T/ A+ A" c. U0 m# h. ~1 q顺序注射分析法：sequentical injection analysis;SIA
! ]  p1 i1 K" T  h0 n2 A  M* Z# C9 L化学计量学：chemometrics
% E8 `0 k7 I4 {$ U- ~& L绝对误差：absolute error
- ^  {8 l* Y: V& w相对误差：relative error
系统误差：systematic error
可定误差：determinate error
; h. f1 C: [' y随机误差：accidental error
不可定误差：indeterminate error
准确度：accuracy
精确度：precision
9 X) a* H; I- O偏差：debiation，d
平均偏差：average debiation
* S) t: i4 P! G" }1 b* h8 g1 o相对平均偏差：relative average debiation
标准偏差（标准差）：standerd deviation;S
( ]+ ~3 c* T5 d0 A6 }. U7 C相对平均偏差：relatibe standard deviation;RSD
变异系数：coefficient of variation
6 q  ~) X  P' g& c/ u误差传递：propagation of error
0 @) w9 K: v. X& v9 c' c有效数字：significant figure
+ _. z. `/ c7 w( \: {( ?置信水平：confidence level
显著性水平：level of significance
6 B& k7 R) O( s- }& Y8 B  }合并标准偏差（组合标准差）：pooled standard debiation
舍弃商：rejection quotient ;Q
滴定分析法：titrametric analysis
滴定：titration
& Z9 N8 l- E; G4 @6 u9 K9 r! V容量分析法:volumetric analysis
化学计量点：stoichiometric point
5 N! b+ G2 l; x5 G6 m- x1 k- s, V等当点：equivalent point
. b) d7 L" i) L6 ^4 X电荷平衡：charge balance
+ E& e# U* c* i- q电荷平衡式：charge balance equation
% _  c0 k. N: H7 J' N( \4 ~6 m# A质量平衡：mass balance
. V" R/ V# x% P0 t- C  N) ]4 R/ f物料平衡：material balance
质量平衡式：mass balance equation
酸碱滴定法：acid-base titrations
" G# z* I5 z* K) s* c质子自递反应：autoprotolysis reaction
质子自递常数：autoprotolysis constant
4 V/ G: j! o+ C5 V/ }' ^质子条件式:proton balance equation
酸碱指示剂：acid-base indicator
指示剂常数：indicator constant
变色范围：colour change interval
混合指示剂：mixed indicator
, ]! ]" r+ R" a; |) ^双指示剂滴定法：double indicator titration
; M" |$ z. f+ ]* R6 Q4 T1 Q非水滴定法：nonaqueous titrations
质子溶剂：protonic solvent
9 b$ ^3 w  Y# H酸性溶剂：acid solvent
碱性溶剂：basic solvent
0 v( S$ F% I0 x/ o3 C7 d0 ]% t两性溶剂:amphototeric solvent
# I7 q  v* g7 l$ x7 [# @0 Z* S无质子溶剂：aprotic solvent
) H, o0 v4 j* A- K均化效应：differentiating effect
9 R0 f3 |1 u: M! ]. F2 O: L区分性溶剂：differentiating solvent
" i7 y( i, r( i" e# i: D1 r离子化：ionization
离解：dissociation
* ^# a* c6 x7 ]( u结晶紫：crystal violet
0 }' h7 n' H8 B: C& V0 E5 ^萘酚苯甲醇: α-naphthalphenol benzyl alcohol
5 B  M* \% P; K奎哪啶红：quinadinered
7 a4 E) H2 |9 x. x" l9 }  h百里酚蓝：thymol blue
+ ~$ m8 s. |: a! c* k3 r偶氮紫：azo violet
溴酚蓝：bromophenol blue
$ b& a/ J( f9 u) j% S配位滴定法：compleximetry
' L0 Y9 D/ x  H3 @+ R- V& w5 Y乙二胺四乙酸：ethylenediamine tetraacetic acid,EDTA
螯合物：chelate compound
; {0 S3 M) G5 ^& R0 A1 P9 C3 ^( y5 L金属指示剂：metal lochrome indcator
, y; p: E, i+ O氧化还原滴定法：oxidation-reduction titration
碘量法：iodimetry
% h) {) X0 l$ c, {; f溴量法：bromimetry ]
- y& [  l6 X2 b5 y# Q& @溴量法：bromine method
4 W) o9 E" ^9 x7 I$ V$ a1 j  ?# V铈量法：cerimetry
! q9 C4 d/ U1 w1 b2 T$ H. u, Q高锰酸钾法：potassium permanganate method
* d' _; y8 n6 a6 L- j, F条件电位：conditional potential
溴酸钾法：potassium bromate method
1 `! v  y, o' ~. ^  \/ @8 i硫酸铈法：cerium sulphate method
偏高碘酸：metaperiodic acid
高碘酸盐：periodate
亚硝酸钠法：sodium nitrite method
重氮化反应：diazotization reaction
重氮化滴定法：diazotization titration
亚硝基化反应：nitrozation reaction
: B5 [2 i5 W1 f3 n  X  G/ U% k+ E亚硝基化滴定法：nitrozation titration
1 I9 [, |) u/ w$ U& l+ _. V外指示剂：external indicator
$ w6 v% s2 y8 ^' D% {" X外指示剂：outside indicator
6 H" z+ `" U; F  {0 P重铬酸钾法：potassium dichromate method
  D' Y; U& q7 z! _  l5 C0 d0 b沉淀滴定法：precipitation titration
% V0 |  h7 |( f# U6 A容量滴定法：volumetric precipitation method
/ H% p: _8 r2 b银量法：argentometric method
重量分析法：gravimetric analysis
9 [* v1 h7 \, A8 K+ G& B挥发法：volatilization method
引湿水（湿存水）：water of hydroscopicity
包埋(藏)水：occluded water
0 S9 y/ z, A" f* [) H9 g吸入水：water of imbibition
* `  [- M0 h  V3 U, p/ W结晶水：water of crystallization
1 o& \6 h2 z9 Y$ ~4 D& y4 O  ~. m$ H组成水：water of composition
液-液萃取法：liquid-liquid extration
溶剂萃取法：solvent extration
反萃取：counter extraction
6 j# [1 G8 \4 a) l分配系数：partition coefficient
! u0 N9 M1 y% ^( G. w分配比：distribution ratio
" s# n% Y4 n, u离子对（离子缔合物）：ion pair
沉淀形式：precipitation forms
称量形式：weighing forms
. X3 l) ]+ o* J物理分析：physical analysis
物理化学分析：physicochemical analysis
仪器分析：instrumental analysis
电化学分析：electrochemical analysis
电解法：electrolytic analysis method
4 ]) d7 l8 _8 n) j电重量法：electtogravimetry
# Y2 b6 j, |2 h/ W9 J库仑法：coulometry
9 ~! N9 _5 y- L' W- ~0 t0 |, L; L库仑滴定法：coulometric titration
% Z2 L- V+ c- b, V, ?2 x. b电导法：conductometry
4 D) B8 u+ f( i+ O" d' T电导分析法：conductometric analysis
5 @4 o6 `( R5 A) H, }! @( P9 j; l电导滴定法：conductometric titration
0 Z6 N  S/ O* @% }电位法：potentiometry
直接电位法：dirext potentiometry
电位滴定法：potentiometric titration
伏安法：voltammetry
4 B- N3 G* C1 t0 O极谱法：polarography
! w! @7 v" o9 j溶出法：stripping method
电流滴定法：amperometric titration
化学双电层：chemical double layer
) C' O9 s' i. r3 U相界电位：phase boundary potential
1 Q; R, Q5 e/ Z" M* H5 _金属电极电位：electrode potential
$ L2 }  M& D! s4 p* M1 ?化学电池：chemical cell
液接界面：liquid junction boundary
原电池：galvanic cell
: [+ E  q7 C+ k# W( \  G+ B电解池：electrolytic cell
负极：cathrode
+ e6 X3 p# T. W  J正极：anode
: M* s* I+ w( l+ C- X电池电动势：eletromotive force
. h( U. p: R4 s% q& B指示电极：indicator electrode
参比电极：reference electroade
标准氢电极：standard hydrogen electrode
1 k: N: l/ Z; O+ z! X一级参比电极：primary reference electrode
饱和甘汞电极：standard calomel electrode
$ C3 @  w3 q! Z4 R4 Q银－氯化银电极：silver silver-chloride electrode
+ f" v: C- ]* c$ E$ @  i3 r液接界面：liquid junction boundary
3 X& A% F  U/ O9 B# X0 a/ D; r不对称电位：asymmetry potential
表观PH值：apparent PH
- T1 P3 e& a; z, |3 x复合PH电极：combination PH electrode
离子选择电极：ion selective electrode
敏感器：sensor
9 H5 x' i" g5 F4 Y* ^晶体电极:crystalline electrodes
均相膜电极：homogeneous membrance electrodes
非均相膜电极：heterog eneous membrance electrodes
9 ?$ C$ B1 C) `" l' j% i: V非晶体电极：non- crystalline electrodes
刚性基质电极：rigid matrix electrode
流流体载动电极：electrode with a mobile carrier
气敏电极：gas sensing electrodes
酶电极：enzyme electrodes
3 Y4 U, p% j2 n* R* b2 H! K金属氧化物半导体场效应晶体管：MOSFET
离子选择场效应管：ISFET
总离子强度调节缓冲剂：total ion strength adjustment buffer,TISAB
6 e1 X$ \! b' r8 b* a/ m- R永停滴定法：dead-stop titration
  P, w: K& s/ a& V' g6 V双电流滴定法（双安培滴定法）：double amperometric titration
1 [- t5 C) s: p6 U普朗克常数：Plank constant
# t1 f5 U) }9 o) ?2 X* O* U. |电磁波谱：electromagnetic spectrum
/ {4 Q7 [+ d  R9 A/ T光谱：spectrum
3 B/ |, M* |( R0 N$ b. V光谱分析法：spectroscopic analysis
原子发射光谱法：atomic emission spectroscopy
质量谱：mass spectrum
质谱法：mass spectroscopy,MS
紫外－可见分光光度法：ultraviolet and visible spectrophotometry;UV-vis
肩峰：shoulder peak
末端吸收：end absorbtion
% z" u2 Z* f0 g. X生色团：chromophore
助色团：auxochrome
红移：red shift
长移：bathochromic shift
1 H, R& X7 E9 [9 _/ l" c. y短移：hypsochromic shift
5 y4 e/ p2 Y- x: |+ N6 L9 Q) n蓝（紫）移：blue shift
增色效应（浓色效应）：hyperchromic effect
减色效应（淡色效应）：hypochromic effect
# f3 n7 ]0 w- h0 l; Y4 ]/ q# w强带：strong band
弱带：weak band
) v* c6 Z* e) @) ^吸收带：absorption band
/ T* D, s+ c9 ?透光率：transmitance,T
吸光度：absorbance
$ G. y/ w9 f( G6 ~8 X谱带宽度：band width
杂散光：stray light
( o' A* x$ t, ^4 H7 I8 u噪声：noise
暗噪声：dark noise
: g- ^6 N. c( Z% j散粒噪声：signal shot noise
闪耀光栅：blazed grating
全息光栅：holographic graaing
光二极管阵列检测器：photodiode array detector
偏最小二乘法：partial least squares method ,PLS
- U. l" ~  n% O褶合光谱法：convolution spectrometry
褶合变换：convolution transform,CT
离散小波变换：wavelet transform,WT
多尺度细化分析：multiscale analysis
供电子取代基：electron donating group
' n6 T& T) H* s# C+ j( {% P. s/ d+ y吸电子取代基：electron with-drawing group
荧光：fluorescence
. A' k: l. W( K: B5 n/ h4 G荧光分析法：fluorometry
X-射线荧光分析法：X-ray fulorometry
原子荧光分析法：atomic fluorometry
; e# X3 \/ {% L% g! n, \1 I分子荧光分析法：molecular fluorometry
振动弛豫：vibrational relexation
7 T  c+ W9 b. R+ g9 r内转换：internal conversion
. \4 [$ g% @3 u% C# Q, u外转换：external conversion
! z# B  s+ L. @3 N' s- t体系间跨越：intersystem crossing
+ ]: ^/ F# G5 w- c3 f" h% ?8 H激发光谱：excitation spectrum
1 {: I, S. u; C0 V2 s' r荧光光谱：fluorescence spectrum
斯托克斯位移：Stokes shift
, Z. }6 Q, M( g: l  a" x3 ^. }荧光寿命：fluorescence life time
4 h; r4 @0 ?7 j" s$ w7 [荧光效率：fluorescence efficiency
荧光量子产率：fluorescence quantum yield
荧光熄灭法：fluorescence quemching method
散射光：scattering light
2 H; g2 t4 O9 z瑞利光：Reyleith scanttering light
5 Y* u( O5 S2 v) N& D' U* k拉曼光：Raman scattering light
红外线：infrared ray,IR
" t# E1 H) b* B中红外吸收光谱：mid-infrared absorption spectrum,Mid-IR
远红外光谱：Far-IR
微波谱：microwave spectrum,MV
( V: d, U$ M/ y8 o红外吸收光谱法：infrared spectroscopy
/ t- W# \. z. d红外分光光度法：infrared spectrophotometry
振动形式：mode of vibration
% n- X; N0 Z7 U, L& s: w6 ~* v) G1 t伸缩振动：stretching vibration
对称伸缩振动：symmetrical stretching vibration
; Z+ U* j: g$ C  Z7 W不对称伸缩振动：asymmetrical stretching vibration
弯曲振动：bending vibration
& |, X8 M, `: x变形振动：formation vibration
' `6 n* j! R: D7 z3 h7 `" W1 s1 v面内弯曲振动:in-plane bending vibration,β
剪式振动：scissoring vibration,δ
) N; M/ ]- N3 k! d+ ]4 T4 m: i面内摇摆振动：rocking vibration,ρ
3 ^! k+ z. M4 N7 i核磁共振：nuclear magnetic resonance,NMR
. Y2 y2 a: z  M% W核磁共振波谱：NMR spectrum
$ Z1 r/ v0 V4 Q4 C5 x核磁共振波谱法：NMR spectroscopy
. `; ^7 c) `) w' p3 ?扫场：swept field
. ~# `9 `/ V6 @: S$ r* [扫频：seept frequency
; ^2 _/ q3 p& K- G9 b9 a/ L连续波核磁共振：continuous wave NMR,CW NMR
5 v& L# R% Y3 p. o3 O+ r; \Fourier变换NMR：PFT-NMR,FT-NMR
二维核磁共振谱：2D-NMR
7 j$ n9 z; `. g% a质子核磁共振谱：proton magnetic resonance spectrum,PMR
氢谱：1H-NMR
- I: L) y; U# A3 F% e( G碳－13核磁共振谱：13C-NMR spectrum,13CNMR
自旋角动量：spin angular momentum