稀有金属
稀有金屬
희유금속
CHINESE JOURNAL OF RARE METALS
2010年
2期
231-236
,共6页
蒋柏泉%杨苏平%肖琳%张华%白立晓
蔣柏泉%楊囌平%肖琳%張華%白立曉
장백천%양소평%초림%장화%백립효
电镀%石英光纤%镍-磷合金%镍
電鍍%石英光纖%鎳-燐閤金%鎳
전도%석영광섬%얼-린합금%얼
electroplating%quartz optical fiber%nickel-phosphorus alloy%nickel
在普通瓦特电镀液中添加稀土镧元素在石英光纤表面化学镀Ni-P涂层上续镀厚镍.考察了氧化镧对镍沉积速率、电流效率、镀层组成、晶粒尺寸、组织结构以及其他物理性能的影响.用扫描电镜观察镀层表面和断面形貌;用能谱仪和等离子发射光谱仪测定镀层元素和组成.结果表明,在瓦特镀液中添加1.5 g·L~(-1)的氧化镧后,提高了镍沉积速率和电流效率,改善了厚镍镀层质量,使制备的镀层(厚约750μm)具有晶粒细小、结构致密,高硬度、强附着力、低电阻、高密度和良好的可焊性等性能.镍沉积速率、电流效率、致密度和显微硬度分别由14.2μm·h~(-1),90.8%,93%和281HV提高至15.2 μm·h~(-1),97.9%,98%和337HV.平均晶粒尺寸、电阻率和润湿时间分别由12μm,27μΩ·cm和5~6 s降至1.5 μm,23μΩ·cm和2~3 s.
在普通瓦特電鍍液中添加稀土鑭元素在石英光纖錶麵化學鍍Ni-P塗層上續鍍厚鎳.攷察瞭氧化鑭對鎳沉積速率、電流效率、鍍層組成、晶粒呎吋、組織結構以及其他物理性能的影響.用掃描電鏡觀察鍍層錶麵和斷麵形貌;用能譜儀和等離子髮射光譜儀測定鍍層元素和組成.結果錶明,在瓦特鍍液中添加1.5 g·L~(-1)的氧化鑭後,提高瞭鎳沉積速率和電流效率,改善瞭厚鎳鍍層質量,使製備的鍍層(厚約750μm)具有晶粒細小、結構緻密,高硬度、彊附著力、低電阻、高密度和良好的可銲性等性能.鎳沉積速率、電流效率、緻密度和顯微硬度分彆由14.2μm·h~(-1),90.8%,93%和281HV提高至15.2 μm·h~(-1),97.9%,98%和337HV.平均晶粒呎吋、電阻率和潤濕時間分彆由12μm,27μΩ·cm和5~6 s降至1.5 μm,23μΩ·cm和2~3 s.
재보통와특전도액중첨가희토란원소재석영광섬표면화학도Ni-P도층상속도후얼.고찰료양화란대얼침적속솔、전류효솔、도층조성、정립척촌、조직결구이급기타물이성능적영향.용소묘전경관찰도층표면화단면형모;용능보의화등리자발사광보의측정도층원소화조성.결과표명,재와특도액중첨가1.5 g·L~(-1)적양화란후,제고료얼침적속솔화전류효솔,개선료후얼도층질량,사제비적도층(후약750μm)구유정립세소、결구치밀,고경도、강부착력、저전조、고밀도화량호적가한성등성능.얼침적속솔、전류효솔、치밀도화현미경도분별유14.2μm·h~(-1),90.8%,93%화281HV제고지15.2 μm·h~(-1),97.9%,98%화337HV.평균정립척촌、전조솔화윤습시간분별유12μm,27μΩ·cm화5~6 s강지1.5 μm,23μΩ·cm화2~3 s.
Lanthanum was added into the common Watt bath to make a thick nickel on the Ni-P coating of the quartz optical fiber surface. The influences of lanthanum on nickel deposition rate, current efficiency, coating com-position, particle size, structure and other physical properties of the nickel coating were investigated. Scanning electron microscopy was used to characterize the morphologies of nickel coating ( surface and cross-section). Spectroscopy and plasma emission spectroscopy were employed to measure the elements and composition of the nickel coatings. The results showed that the addition of lanthanum oxide with concentration of 1.5 g·L~(-1) in the Watt bath increased the nickel deposition rate and current efficiency and improved the quality of the nickel coating. The prepared nickel coating with thickness of about 750μm.had small particle size, compact structure, high hardness, strong adhesion, low resistivity, high density and good solderability. The nickel deposition rate, current efficiency, degree of densification and micro-hardness were increased from 14.2 to 15.2 μm·h~(-1),90.8% to 97.9%, 93% to 98% and 281HV to 337HV, respectively. The average grain size, resistivity and wetting time were reduced from 12 to 1.5 μm, 27 to 23 μΩ·cm and 5 ~6 s to 2~3 s, respectively.