Summary form only given, as follows. A new technology for production of 4BS pastes for the positive (lead dioxide) plates of lead-acid batteries has been developed based on an Eirich Evactherm(R) mixer. The basic principle of this new technology is that 4BS crystals with dimensions between 20 and 25 /spl mu/m are formed first from a semi-suspension at a temperature higher than 90/spl deg/C and then the excess water is removed from the semi-suspension under vacuum until the desired paste density is obtained. During the vacuum treatment, the temperature of the paste decreases and small 4BS and PbO crystals are formed. During the paste formation procedure, the large 4BS crystals build up the PbO/sub 2/ skeleton of the PAM, whereas the small crystals form the energetic PbO/sub 2/ structure, which participates in the charge-discharge processes on cycling of the battery. It has been found, through XRD and thermo-gravitational analysis, that the 4BS particles comprise crystal and amorphous zones. The crystal zones contain water molecules part of which can be easily removed from the particles under vacuum treatment and curing as a result of which the crystallinity of the 4BS particles decreases. Another part of the bound water remains in the 4BS particles after curing of the pastes and can leave them only after heating to 250/spl deg/C. The ability of water to leave the particles depends on the density of the semi-suspension used for preparation of the paste. The higher the H/sub 2/O content in the semi-suspension the easier it leaves the 4BS crystals on vacuum treatment. Experimental tests have shown that the best battery performance is obtained when the paste is prepared under the following conditions: degree of lead oxidation in the leady oxide (LO) 85% PbO/LO, H/sub 2/SO/sub 4//LO ratio 5-6%, liquid content (H/sub 2/SO/sub 4/+H/sub 2/O) in tile semi-suspension 240-260 ml/kg LO, temperature of the semi-suspension equal to or higher than 90/spl deg/C, duration of paste mixing about 15 min. The new semi-suspension technology of 4BS paste preparation facilitates the formation of stable PAM structure that ensures high capacity and long cycle life of the positive plates of lead-acid batteries.
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机译:摘要只给出,如下所述。基于EIRICH EVACHERTHER(R)混合器,开发了一种用于生产铅(二氧化铅)铅(二氧化铅)板的4BS浆料的新技术。该新技术的基本原理是,在高于90 / SPL DEG / C的温度下,首先形成具有20和25 / SPL MU / M的尺寸的4Bs晶体,然后从高于90 / SPL DEG / C的温度中形成。然后从中取出过量的水在真空下半悬浮液直至获得所需的糊状密度。在真空处理期间,形成糊剂的温度和小4Bs和PbO晶体。在浆料形成过程中,大的4bs晶体积聚了pam的PbO / sub 2 /骨架,而小晶体形成能量PbO / sub 2 /结构,其参与电池循环的电荷 - 放电过程。通过XRD和热重力分析已经发现,4BS颗粒包含晶体和非晶区域。晶体区含有水分子部分,其部分可以在真空处理下容易地从颗粒中除去,并且由于该颗粒的结晶度降低了4Bs颗粒的结晶度。在固化浆料后,粘合水的另一部分保留在4bs颗粒中,并可在加热至250 / SPL DEG / C之后仅留下它们。水离开颗粒的能力取决于用于制备糊剂的半悬浮液的密度。半悬架中的H / sub 2 / O内容越高,它更容易将4bs晶体留在真空处理中。实验试验表明,当在下列条件下制备糊剂时,获得最佳电池性能:引线氧化物(LO)85%PBO / LO,H / SEA / SO / SUB 4 // LO中的铅氧化程度比率5-6%,瓷砖半悬架中的液体含量(H / sub 2 / so / sub 4 / o / o / o)240-260ml / kg LO,半悬架的温度等于或更高超过90 / SPL DEG / C,糊剂搅拌约15分钟。 4BS糊剂制剂的新半悬架技术有助于形成稳定的PAM结构,可确保铅酸蓄电池阳性板的高容量和长循环寿命。
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