reheating「reheating purpose」
关于日常生活英语对话汇总
英语的口语是我们要多多开口的,我下面就给大家分享英语的口语,欢迎大家阅读和参考
家长会
A: Thank you for coming tonight, Mrs. Webber. As a teacher, it's great seeing the kid's parents assist our parent-teacher conference night.

谢谢您晚上能来,韦伯太太。作为老师,很高兴您晚上能来参加家长会。
B: Of course! I am very interested to know how my child is doing and also get some insight from you as to how he can improve.
当然要来参加的!我非常想知道我的孩子最近怎么样,也想问问您如何帮助他提高学习成绩呢。
A: Well Allen is a great student. He is a hard worker and very well behaved, however he does struggle a bit with math.
嗯,艾伦是个很好的学生。他学习勤奋,表现也很好,但是在数学上他有些困难。
B: I guess he gets that from me, I never did well in math when I was a kid. What can I do at home to compliment what he is learning in the classroom.
我想这可能是遗传吧,我小时候数学就不好。在家里我们做些什么帮助他巩固在课上学到的知识呢?
A: Well, it's important that you sit with him and review his homework assignments and help him with math. I would also recommend he stay after school twice a week for tutoring sessions. It will really help a lot.
嗯。你应该坐在他旁边帮他复习家庭作业并且辅导他数学,这很重要。我建议他每周有两天能在放学后参加辅导课程。那样会帮助很大。
B: Thanks a lot! I will definitely do that. Is there anything else?
非常感谢!我一定会这么做的。还有什么其他可以做的吗?
A: Um... yes. Here is a notice from our financial department, seems your child's tution is overdue.
嗯是的,这是我们财政部的通知单,看上去您的孩子的家教期限已经到了。
B: Oh yes, I...
哦,是的。我
圣诞节后的剩饭
A: What's for dinner?
晚餐吃什么?
B: Leftovers.
剩饭。
A: What? Leftovers of what and from when?
什么?什么剩饭,什么时候的?
B: From last night! I took the left over turkey, mixed it with some diced peppers and onions, added a little bit of mayonnaise and made some sandwiches!
昨晚剩下的有切碎的辣椒和洋葱的火鸡,还有一些蛋黄酱,可以做些三明治。
A: Isn't that dangerous though? I mean bacteria and germs reproducing on food that was left out or re-heated?
这么久了,还能吃吗?我是说放这么久,即使加热,细菌还是会繁殖的。
B: Well, I didn't leave the turkey out at room temperature for more than a an hour and I refrigerated it soon after we finished eating. Also, when reheating, I put it in the oven for fifteen minutes at one hundred degrees Celsius.
嗯,我们把火鸡放在室温下超过了一个小时,我们吃完后就放进了冰箱。后来,放在100摄氏度的微波炉里加热了15分钟。
A: Well OK, I am just afraid of getting food poisoning.
嗯,好的,我只是担心会食物中毒。
B: Don't worry about it! Making a new meal out of leftovers is almost an art! Not only do you save money, but you also get to be creative and have something different to eat!
不用担心!用剩饭剩菜重新做新的食物简直就是艺术!这样不仅可以省钱,还可以让你学会创新,有不同的东西可以吃!
圣诞传统
A: What are you doing, awake?
你在做什么呢,醒着吗?
B: I can't sleep...
我睡不着
A: But it's almost midnight!
但是现在已经是午夜了!
B: Exactly. I'm too excited for Christmas morning. Also, I thought I heard Santa.
确实是。我想到就快要到圣诞的早晨了,我就很兴奋。还有,我以为我听到了圣诞老人来了。
A: Really? How do you know it was Santa?
真的吗?你怎么知道是圣诞老人的?
B: Well, I heard that naughty boys and girls get coal in their stockings, so I thought I'd be nice and make Santa cookies. I even left out some milk. I heard someone in the kitchen eating the cookies, so I came downstairs!
A: Hmm... well I know that Santa won't come down the chimney with you hiding behind the tree, spying on him!
嗯我知道圣诞老师不会在你躲在树后面想要偷看的时候从烟囱里下来。
B: Really?
真的吗?
A: Really! Let's go back upstairs and get back to bed. That way, we can let Santa do his job. Then when you wake up, it will be Christmas already!
真的!我们上楼去回到床上睡觉吧。这样的话,圣诞老人才能做他的事。然后等你醒来的时候,就已经是圣诞节了。
B: O-K...
好吧
A: Hey, honey! Is that you? Don't eat all the cookiesI want some, too!
嘿,宝贝!是你吗?不要把曲奇都吃了,我也想吃点!
英语造句knock
This paper systematically describes the knock phenomenon.
本文对汽油发动机的爆震现象进行了系统的阐述。
The working principle, harm and suppression measures of engine knock are described. From ****ysis the structure, working principle of knock sensors, detection of failures of detonation sensors are discussed. Then it gives examples of fault of lj474q3e2 knock sensor.
从理论上概述了发动机爆震现象的产生机理、危害以及抑制措施,分析发动机爆震传感器的结构、工作原理以及常见故障的检测方法,并给出lj474q3e2爆震传感器故障维修实例。
This paper describes a system for knock detection in automobile engine using spark plug as a detecting probe.
本文描述了一种直接利用火花塞电极作为传感器检测汽车发动机爆震的方法。
Furthermore, the application of dds ( direct digital synthesis) for engine knock detection is introduced.
介绍了直接数字合成技术(direct digital synthesis,dds)在发动机爆震检测中的应用。
This paper reports the results of a study on end gas autoignition and knock in thespark ignition engines.
本文介绍了火花点火发动机的末端气体自燃和爆震研究的结果。
The application of fiber optic photoelectric sensors to detect and measure engine combustion and knock was investigated.
利用光纤传感器对内燃机缸内燃烧及其爆震进行探测,探索光纤传感技术在燃烧测量中应用的可行性。
Making use of discrete wavelet transform to extract knock feature is researched.
研究了利用离散小波变换提取爆震特征的方法。
Knock signal characteristic can be drawn by knock sensor and can be utilized to judge the knock to take place accurately and the knock's intensity size.
利用爆震传感器提取爆震信号特征,可以准确地判断爆震是否发生,爆震强度大小,进而控制汽油机工作在期望的轻微爆震工况下。
The knock detection system makes spark advance angle approach critical knock, avoids strong knock in gasoline engine, and improves the power performance and fuel economy performance.
爆震检测系统可以使汽油机的点火提前角接近爆震临界点,避免汽油机发生强烈爆震,使其具有更好的动力性和经济性。同时还可以减小制造公差、环境变化和磨损等因素对产品造成的影响。本文作者针对cac480发动机爆震检测技术做了比较深入的研究,并提出了具体的解决方案。
Knock detection, identification and control for hcci engine are of great significance to the practical application of hcci combustion technology because the high load range of hcci is limited mainly by knock and fast combustion will lead to knock too.
在hcci大负荷边界主要受到爆震的限制,在hcci工况内过快的燃烧速度也会带来爆震问题,因而,hcci发动机的爆震检测与识别以及爆震控制等问题,对于hcci燃烧技术的实际应用,具有重要意义。
A new kind of experiment equipment is designed for the starting knock of r4102dl diesel engine.
设计了一种新型试验装置,用于r4102dl柴油机起动敲缸的试验研究。
In order to prevent piston from knock and cylinder score, modern pistons with convex contour and vari-elliptical cross-section are designed, which can prolong piston longevity and enhance engine performance.
为了防止在高温、高压下工作的活塞发生敲缸和拉缸,提高其使用寿命和工作性能,活塞常被设计成中凸变椭圆。
The reason for locomotive diesel engine knock is ****yzed, and the diagnosis and treatment method of it were put forward.
针对运用中内燃机车柴油机敲缸的现象及危害,分析了产生敲缸的原因,并提出了相应的故障判断和处理方法。
The results show that the actual influence is more serious than estimation. Therefore, in the design of diesel engine, the influence of starting knock should be taken into consideration.
结果表明:实际起动敲缸的影响比估计的情况要严重,在柴油机的设计中要充分考虑起动敲缸对强度的影响因素。
R4102d. L.diesel engine was set as an example to study the influence of starting knock on the strength of connecting rod, piston and piston ring.
以r4120d.l型柴油机为例,试验研究了柴油机起动敲缸对连杆、活塞、活塞环强度的影响。
Piston cylinder knocking and crank beating knock. Which stand for familiar engine abnormal sounds are compared and ****yzed. The result proves that the signal to noise ratio is increased and the higher-frequency useful signal is recovered. The time-frequency map can display the features corresponding to time and frequency of fault signal which offers a practical strategy for diagnosis.
试验研究首先以模拟的信号模型为例,再针对实际的活塞敲缸响和曲轴轴承响两种常见异响故障进行比较分析,结果表明,分层阈值降噪法可以提高信噪比,恢复较高频率的有用信号,小波时频图可以清晰地呈现故障信号的时域和频域特征,为诊断提供一种切实可行的策略。
Ville distribution ( wvd) is applied to the separation of continuous knock response in diesel engine.
利用wvd方法对柴油机中连续撞击信号进行分离,取得了较好的效果。
After ****ysis, it was concluded that the pulling chains knock vehicle bottom rigid body with high-speed rebound after hitting the side frame of glass cover board was the main reason of abnormal signal.
经分析认为,该异常冲击信号的产生是由于牵引链条脱钩后撞击玻璃盖板边框后高速反弹敲击车辆底部刚体所致。
This paper introduces the basic principle and characteristic of the higher position billet extractor which has been installed in the front of reheating furnace in the middle plate plant. The subsurface scrapes and knock marks has been eradicated during the process of extracting the billet.
介绍新研制的中厚板高位出钢机的基本原理与特点,已用于某中板厂加热炉炉前,彻底根除了出钢时下表面擦伤和撞击疤痕的故障,提高板坯质量,并值得参考借鉴。
The solvable condition for the mps simulations was investigated in an enclosed calculation region and the reason for the numerical instability was ****yzed when the mps particles knock at the solid wall or liquid surface is with a relatively large velocity.
分析了mps方法求解封闭区域流动的有解条件、自由面流动中粒子以较大速度撞击壁面或液面时出现的不稳定现象。
toaster中的reheat什么意思
reheat
英 [ˌri:ˈhi:t]
vt.
把…再加热
第三人称单数: reheats 现在分词: reheating 过去式: reheated 过去分词: reheated
The temperature of reheat steam directly influences the efficiency of a power station.
再热蒸汽温度直接影响电站的经济性。
不锈钢镀金能做吗?
理论上没有问题,但是实际操作难度很高,电镀厂要非常专业才能镀出好的效果。电镀是电镀指借助外界直流电的作用,在溶液中进行电解反应,使导电体例如金属的表面沉积一金属或合金层。电极位越高的金属越容易依附与电极位低的金属上,而金是所有金属中电极位最高的。几乎没有镀不上的东西。同理也没有电镀工艺可以用于镀在金上。(附金属电极电位表:) 值得注意的几点: 1.基体金属电位负于沉积金属电位,将难以获得结合良好的镀层,甚至不能沉积。 2.不锈钢易于钝化,不采取特殊活化措施难以得到高结合力镀层。 理论上不锈钢应可使用热镀金工艺 热浸镀金(Hot Dipping) 热浸镀金也称之熔融镀金.它是将镀件浸入在电镀金属之熔融液体 中得到具有附着性,耐腐蚀性的镀层.主要用在钢铁产品的热浸镀锌 其镀层的外部为锌,内层与钢铁接触则为锌铁化合物.锌是阳极金属,它 以牺牲性的防蚀作用来保护钢铁产品.熔融镀金的外观及性质可由下列 因素改变: (1)镀层的组成(coating composition) (2)镀浴的温度(bath temperature) (3)浸镀时间(time of immersion) (4)却速率(rate of cooling) (5)热处理(reheating) 热浸镀金对基材的机械性质之影响: (1)抗拉强度(tensile strenghth):不改变 (2)降伏强度(yied strenghth):不改变 (3)焊接应力(weld stress):减少50-60% (4)成型性(formability):不改变 (5)疲劳强度(fatique strenghth):较未处理的好 (6)氢脆(hydrogen embrittlement):影响不大 (7)粒间脆列(intercrystalline cracking):因锌渗入钢铁晶界会影起粒间脆列 越往上还原性越强,越往下氧化性越强 (标准电极电势表) Li(I)-(0) Li++e-=Li -3.0401 Cs(I)-(0) Cs++e-=Cs -3.026 Rb(I)-(0) Rb++e-=Rb -2.98 K(I)-(0) K++e-=K-2.931 Ba(II)-(0) Ba2++2e-=Ba -2.912 Sr(II)-(0) Sr2++2e-=Sr -2.89 Ca(II)-(0) Ca2++2e-=Ca -2.868 Na(I)-(0) Na++e-=Na -2.71 La(III)-(0) La3++3e-=La -2.379 Mg(II)-(0) Mg2++2e-=Mg -2.372 Ce(III)-(0) Ce3++3e-=Ce -2.336 H(0)-(-I) H2(g)+2e-=2H- -2.23 Al(III)-(0) AlF63-+3e-=Al+6F- -2.069 Th(IV)-(0) Th4++4e-=Th -1.899 Be(II)-(0) Be2++2e-=Be -1.847 U(III)-(0) U3++3e-=U-1.798 Hf(IV)-(0) HfO2++2H++4e-=Hf+H2O -1.724 Al(III)-(0) Al3++3e-=Al -1.662 Ti(II)-(0) Ti2++2e-=Ti -1.630 Zr(IV)-(0) ZrO2+4H++4e-=Zr+2H2O -1.553 Si(IV)-(0) [SiF6]2-+4e-=Si+6F- -1.24 Mn(II)-(0) Mn2++2e-=Mn -1.185 Cr(II)-(0) Cr2++2e-=Cr -0.913 Ti(III)-(II) Ti3++e-=Ti2+ -0.9 B(III)-(0) H3BO3+3H++3e-=B+3H2O -0.8698 *Ti(IV)-(0) TiO2+4H++4e-=Ti+2H2O -0.86 Te(0)-(-II) Te+2H++2e-=H2Te -0.793 Zn(II)-(0) Zn2++2e-=Zn -0.7618 Ta(V)-(0) Ta2O5+10H++10e-=2Ta+5H2O -0.750 Cr(III)-(0) Cr3++3e-=Cr -0.744 Nb(V)-(0) Nb2O5+l0H++10e-=2Nb+5H2O -0.644 As(0)-(-III) As+3H++3e-=AsH3 -0.608 U(IV)-(III) U4++e-=U3+ -0.607 Ga(III)-(0) Ga3++3e-=Ga -0.549 P(I)-(0) H3PO2+H++e-=P+2H2O -0.508 P(III)-(I) H3PO3+2H++2e-=H3PO2+H2O -0.499 *C(IV)-(III) 2CO2+2H++2e-=H2C2O4 -0.49 Fe(II)-(0) Fe2++2e-=Fe -0.447 Cr(III)-(II) Cr3++e-=Cr2+ -0.407 Cd(II)-(0) Cd2++2e-=Cd -0.4030 Se(0)-(-II) Se+2H++2e-=H2Se(aq) -0.399 Pb(II)-(0) PbI2+2e-=Pb+2I- -0.365 Eu(III)-(II) Eu3++e-=Eu2+ -0.36 Pb(II)-(0) PbSO4+2e-=Pb+SO42- -0.3588 In(III)-(0) In3++3e-=In -0.3382 Tl(I)-(0) Tl++e-=Tl -0.336 Co(II)-(0) Co2++2e-=Co -0.28 P(V)-(III) H3PO4+2H++2e-=H3PO3+H2O -0.276 Pb(II)-(0) PbCl2+2e-=Pb+2Cl- -0.2675 Ni (II)-(0) Ni2++2e-=Ni -0.257 V(III)-(II) V3++e-=V2+ -0.255 Ge(IV)-(0) H2GeO3+4H++4e-=Ge+3H2O -0.182 Ag(I)-(0) AgI+e-=Ag+I- -0.15224 Sn(II)-(0) Sn2++2e-=Sn -0.1375 Pb(II)-(0) Pb2++2e-=Pb -0.1262 *C(IV)-(II) CO2(g)+2H++2e-=CO+H2O -0.12 P(0)-(-III) P(white)+3H++3e-=PH3(g) -0.063 Hg(I)-(0) Hg2I2+2e-=2Hg+2I- -0.0405 Fe(III)-(0) Fe3++3e-=Fe -0.037 H(I)-(0) 2H++2e-=H2 0.0000 Ag(I)-(0) AgBr+e-=Ag+Br- 0.07133 S(II.V)-(II) S4O62-+2e-=2S2O32- 0.08 *Ti(IV)-(III) TiO2++2H++e-=Ti3++H2O 0.1 S(0)-(-II) S+2H++2e-=H2S(aq) 0.142 Sn(IV)-(II) Sn4++2e-=Sn2+ 0.151 Sb(III)-(0) Sb2O3+6H++6e-=2Sb+3H2O 0.152 Cu(II)-(I) Cu2++e-=Cu+ 0.153 Bi(III)-(0) BiOCl+2H++3e-=Bi+Cl-+H2O 0.1583 S(VI)-(IV) SO42-+4H++2e-=H2SO3+H2O 0.172 Sb(III)-(0) SbO++2H++3e-=Sb+H2O 0.212 Ag(I)-(0) AgCl+e-=Ag+Cl- 0.22233 As(III)-(0) HAsO2+3H++3e-=As+2H2O 0.248 Hg(I)-(0) Hg2Cl2+2e-=2Hg+2Cl-(饱和KCl) 0.26808 Bi(III)-(0) BiO++2H++3e-=Bi+H2O 0.320 U(VI)-(IV) UO22++4H++2e-=U4++2H2O 0.327 C(IV)-(III) 2HCNO+2H++2e-=(CN)2+2H2O 0.330 V(IV)-(III) VO2++2H++e-=V3++H2O 0.337 Cu(II)-(0) Cu2++2e-=Cu 0.3419 Re(VII)-(0) ReO4-+8H++7e-=Re+4H2O 0.368 Ag(I)-(0) Ag2CrO4+2e-=2Ag+CrO42- 0.4470 S(IV)-(0) H2SO3+4H++4e-=S+3H2O 0.449 Cu(I)-(0) Cu++e-=Cu 0.521 I(0)-(-I) I2+2e-=2I- 0.5355 I(0)-(-I) I3-+2e-=3I- 0.536 As(V)-(III) H3AsO4+2H++2e-=HAsO2+2H2O 0.560 Sb(V)-(III) Sb2O5+6H++4e-=2SbO++3H2O 0.581 Te(IV)-(0) TeO2+4H++4e-=Te+2H2O 0.593 U(V)-(IV) UO2++4H++e-=U4++2H2O 0.612 **Hg(II)-(I) 2HgCl2+2e-=Hg2Cl2+2Cl- 0.63 Pt(IV)-(II) [PtCl6]2-+2e-=[PtCl4]2-+2Cl- 0.68 O(0)-(-I) O2+2H++2e-=H2O2 0.695 Pt(II)-(0) [PtCl4]2-+2e-=Pt+4Cl- 0.755 *Se(IV)-(0) H2SeO3+4H++4e-=Se+3H2O 0.74 Fe(III)-(II) Fe3++e-=Fe2+ 0.771 Hg(I)-(0) Hg22++2e-=2Hg 0.7973 Ag(I)-(0) Ag++e-=Ag 0.7996 Os(VIII)-(0) OsO4+8H++8e-=Os+4H2O 0.8 N(V)-(IV) 2NO3-+4H++2e-=N2O4+2H2O 0.803 Hg(II)-(0) Hg2++2e-=Hg 0.851 Si(IV)-(0) (quartz)SiO2+4H++4e-=Si+2H2O 0.857 Cu(II)-(I) Cu2++I-+e-=CuI 0.86 N(III)-(I) 2HNO2+4H++4e-=H2N2O2+2H2O 0.86 Hg(II)-(I) 2Hg2++2e-=Hg22+ 0.920 N(V)-(III) NO3-+3H++2e-=HNO2+H2O 0.934 Pd(II)-(0) Pd2++2e-=Pd 0.951 N(V)-(II) NO3-+4H++3e-=NO+2H2O 0.957 N(III)-(II) HNO2+H++e-=NO+H2O 0.983 I(I)-(-I) HIO+H++2e-=I-+H2O 0.987 V(V)-(IV) VO2++2H++e-=VO2++H2O 0.991 V(V)-(IV) V(OH)4++2H++e-=VO2++3H2O 1.00 Au(III)-(0) [AuCl4]-+3e-=Au+4Cl- 1.002 Te(VI)-(IV) H6TeO6+2H++2e-=TeO2+4H2O 1.02 N(IV)-(II) N2O4+4H++4e-=2NO+2H2O 1.035 N(IV)-(III) N2O4+2H++2e-=2HNO2 1.065 I(V)-(-I) IO3-+6H++6e-=I-+3H2O 1.085 Br(0)-(-I) Br2(aq)+2e-=2Br- 1.0873 Se(VI)-(IV) SeO42-+4H++2e-=H2SeO3+H2O 1.151 Cl(V)-(IV) ClO3-+2H++e-=ClO2+H2O 1.152 Pt(II)-(0) Pt2++2e-=Pt 1.18 Cl(VII)-(V) ClO4-+2H++2e-=ClO3-+H2O 1.189 I(V)-(0) 2IO3-+12H++10e-=I2+6H2O 1.195 Cl(V)-(III) ClO3-+3H++2e-=HClO2+H2O 1.214 Mn(IV)-(II) MnO2+4H++2e-=Mn2++2H2O 1.224 O(0)-(-II) O2+4H++4e-=2H2O 1.229 Tl(III)-(I) T13++2e-=Tl+ 1.252 Cl(IV)-(III) ClO2+H++e-=HClO2 1.277 N(III)-(I) 2HNO2+4H++4e-=N2O+3H2O 1.297 **Cr(VI)-(III) Cr2O72-+14H++6e-=2Cr3++7H2O 1.33 Br(I)-(-I) HBrO+H++2e-=Br-+H2O 1.331 Cr(VI)-(III) HCrO4-+7H++3e-=Cr3++4H2O 1.350 Cl(0)-(-I) Cl2(g)+2e-=2Cl- 1.35827 Cl(VII)-(-I) ClO4-+8H++8e-=Cl-+4H2O 1.389 Cl(VII)-(0) ClO4-+8H++7e-=1/2Cl2+4H2O 1.39 Au(III)-(I) Au3++2e-=Au+ 1.401 Br(V)-(-I) BrO3-+6H++6e-=Br-+3H2O 1.423 I(I)-(0) 2HIO+2H++2e-=I2+2H2O 1.439 Cl(V)-(-I) ClO3-+6H++6e-=Cl-+3H2O 1.451 Pb(IV)-(II) PbO2+4H++2e-=Pb2++2H2O 1.455 Cl(V)-(0) ClO3-+6H++5e-=1/2Cl2+3H2O 1.47 Cl(I)-(-I) HClO+H++2e-=Cl-+H2O 1.482 Br(V)-(0) BrO3-+6H++5e-=l/2Br2+3H2O 1.482 Au(III)-(0) Au3++3e-=Au 1.498 Mn(VII)-(II) MnO4-+8H++5e-=Mn2++4H2O 1.507 Mn(III)-(II) Mn3++e-=Mn2+ 1.5415 Cl(III)-(-I) HClO2+3H++4e-=Cl-+2H2O 1.570 Br(I)-(0) HBrO+H++e-=l/2Br2(aq)+H2O 1.574 N(II)-(I) 2NO+2H++2e-=N2O+H2O 1.591 I(VII)-(V) H5IO6+H++2e-=IO3-+3H2O 1.601 Cl(I)-(0) HClO+H++e-=1/2Cl2+H2O 1.611 Cl(III)-(I) HClO2+2H++2e-=HClO+H2O 1.645 Ni(IV)-(II) NiO2+4H++2e-=Ni2++2H2O 1.678 Mn(VII)-(IV) MnO4-+4H++3e-=MnO2+2H2O 1.679 Pb(IV)-(II) PbO2+SO42-+4H++2e-=PbSO4+2H2O 1.6913 Au(I)-(0) Au++e-=Au 1.692 Ce(IV)-(III) Ce4++e-=Ce3+ 1.72 N(I)-(0) N2O+2H++2e-=N2+H2O 1.766 O(-I)-(-II) H2O2+2H++2e-=2H2O 1.776 Co(III)-(II) Co3++e-=Co2+(2mol·L-1 H2SO4) 1.83 Ag(II)-(I) Ag2++e-=Ag+ 1.980 S(VII)-(VI) S2O82-+2e-=2SO42- 2.010 O(0)-(-II) O3+2H++2e-=O2+H2O 2.076 O(II)-(-II) F2O+2H++4e-=H2O+2F- 2.153 Fe(VI)-(III) FeO42-+8H++3e-=Fe3++4H2O 2.20 O(0)-(-II) O(g)+2H++2e-=H2O 2.421 F(0)-(-I) F2+2e-=2F- 2.866 F2+2H++2e-=2HF 3.053
塑料盒底部有五个图标
在特百惠产品上有特定的标识,及使用说明,用在不同的使用环境;
1.雪花的 Freezer 冷冻保鲜
2.S曲线的 Miccrowave Reheating 微波加热
3.z 曲线的 Miccrowave Cooking 微波烹调
4. Fridge 冷藏保鲜
5. Dry storage 干活储藏
6.刀叉标志是一个食品安全标志,表示该产品已通过检测符合众多德国和欧洲标准,符合德国LFGB 法规要求,证明不含对人体产生危害的有毒物质,可以在德国及其它欧美市场销售.
描述图标有些难,以上可以用作参考,