表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2014年
5期
91-94,117
,共5页
附青山%金永中%余祖孝%李明田
附青山%金永中%餘祖孝%李明田
부청산%금영중%여조효%리명전
TiCN 粉末%化学镀%镀钴%pH 值
TiCN 粉末%化學鍍%鍍鈷%pH 值
TiCN 분말%화학도%도고%pH 치
TiCN powder%electroless plating%Co plating%pH
目的:研究 TiCN 粉末表面镀 Co 时,镀液 pH 值对施镀过程的影响。方法采用低温化学镀工艺在 TiCN 粉末表面镀 Co。用氨水调节镀液的初始 pH 值,考查初始 pH 值对镀层形成速率的影响及 pH值在施镀过程中的变化情况。分析施镀前后,TiCN 表面相和形貌的变化。结果在碱性范围内,随着镀液初始 pH 值的增加,镀速呈先增大、后减小的趋势。镀液初始 pH 值为9时,镀速最高,且随着施镀的进行,镀液 pH 值明显降低,有大量气泡产生,大约0.5 h 后,pH 值趋于稳定。 TiCN 表面镀覆了较完整的 Co层。结论通过控制镀液的初始 pH 值,可以调整 TiCN 表面镀 Co 的效率。在85℃的温度下,镀液 pH为9时,能得到较高的镀覆效率。
目的:研究 TiCN 粉末錶麵鍍 Co 時,鍍液 pH 值對施鍍過程的影響。方法採用低溫化學鍍工藝在 TiCN 粉末錶麵鍍 Co。用氨水調節鍍液的初始 pH 值,攷查初始 pH 值對鍍層形成速率的影響及 pH值在施鍍過程中的變化情況。分析施鍍前後,TiCN 錶麵相和形貌的變化。結果在堿性範圍內,隨著鍍液初始 pH 值的增加,鍍速呈先增大、後減小的趨勢。鍍液初始 pH 值為9時,鍍速最高,且隨著施鍍的進行,鍍液 pH 值明顯降低,有大量氣泡產生,大約0.5 h 後,pH 值趨于穩定。 TiCN 錶麵鍍覆瞭較完整的 Co層。結論通過控製鍍液的初始 pH 值,可以調整 TiCN 錶麵鍍 Co 的效率。在85℃的溫度下,鍍液 pH為9時,能得到較高的鍍覆效率。
목적:연구 TiCN 분말표면도 Co 시,도액 pH 치대시도과정적영향。방법채용저온화학도공예재 TiCN 분말표면도 Co。용안수조절도액적초시 pH 치,고사초시 pH 치대도층형성속솔적영향급 pH치재시도과정중적변화정황。분석시도전후,TiCN 표면상화형모적변화。결과재감성범위내,수착도액초시 pH 치적증가,도속정선증대、후감소적추세。도액초시 pH 치위9시,도속최고,차수착시도적진행,도액 pH 치명현강저,유대량기포산생,대약0.5 h 후,pH 치추우은정。 TiCN 표면도복료교완정적 Co층。결론통과공제도액적초시 pH 치,가이조정 TiCN 표면도 Co 적효솔。재85℃적온도하,도액 pH위9시,능득도교고적도복효솔。
Objective To study the effect of plating solution pH on the electroless plating process during the Co plating on the surface of TiCN powder. Methods Co was coated on the surface of TiCN powder by low-temperature electroless plating. The initial pH of the plating solution was adjusted by ammonium, and the effect of initial pH on the coating formation rate and the change of pH during the plating process were studied. Besides, the changes in phase composition and surface morphology of TiCN before and after plating were analyzed. Results Within the alkaline range, the plating rate first increased and then decreased with the increas-ing initial pH of the plating solution. The highest plating rate was observed when the initial pH of the plating solution was 9. During the plating process, the pH of the plating solution decreased obviously, with the production of a large amounts of bubbles. After 0. 5 h, the pH value became stable. A uniform Co coating formed on the surface of TiCN. Conclusion By adjustment the initial pH of the plating solution, the efficiency of Co plating on the surface of TiCN. High plating rate was observed at pH=9 and 85 ℃ .