材料导报
材料導報
재료도보
MATERIALS REVIEW
2015年
16期
72-78
,共7页
黄火根%张鹏国%陈向林%王勤国%郎定木
黃火根%張鵬國%陳嚮林%王勤國%郎定木
황화근%장붕국%진향림%왕근국%랑정목
膨胀石墨%鳞片石墨%结构表征%化学氧化
膨脹石墨%鱗片石墨%結構錶徵%化學氧化
팽창석묵%린편석묵%결구표정%화학양화
expanded graphite%flake graphite%structural examination%chemical oxidation
膨胀石墨是重要的工业应用材料,但其微观形貌、成分与晶体结构随膨胀倍率的变化规律认识仍不足。选择 H 2 SO4+HNO3+KMnO4+FeCl3作为插层氧化体系,通过对鳞片原料石墨化学氧化制备出可膨胀石墨,分别在400℃、600℃、800℃、1000℃下膨化处理获得不同的膨胀石墨。针对上述几种石墨,采用 OM、SEM、EDS、XRD等技术对比研究了其形貌、成分与结构的变化。结果表明,原料石墨、可膨胀石墨与膨胀石墨分别呈现层片状、褶皱状和蠕虫状的微观形貌,插层物主要由 S 与 O 组成,膨胀石墨的 S 与 O 含量显著低于可膨胀石墨,且其含量随着膨化温度提高逐渐降低。这些石墨具有相同的密排六方结构,其中可膨胀石墨的晶格常数显著大于原料石墨,反映出插层后石墨结晶度的严重劣化。膨胀石墨的结晶度稍差于原料石墨,但压片处理后得到改善,更高温度膨化的石墨改善更加明显,且优于原料石墨,这预示着高温膨化石墨的应用可塑性更强,具有更好的应用前景。
膨脹石墨是重要的工業應用材料,但其微觀形貌、成分與晶體結構隨膨脹倍率的變化規律認識仍不足。選擇 H 2 SO4+HNO3+KMnO4+FeCl3作為插層氧化體繫,通過對鱗片原料石墨化學氧化製備齣可膨脹石墨,分彆在400℃、600℃、800℃、1000℃下膨化處理穫得不同的膨脹石墨。針對上述幾種石墨,採用 OM、SEM、EDS、XRD等技術對比研究瞭其形貌、成分與結構的變化。結果錶明,原料石墨、可膨脹石墨與膨脹石墨分彆呈現層片狀、褶皺狀和蠕蟲狀的微觀形貌,插層物主要由 S 與 O 組成,膨脹石墨的 S 與 O 含量顯著低于可膨脹石墨,且其含量隨著膨化溫度提高逐漸降低。這些石墨具有相同的密排六方結構,其中可膨脹石墨的晶格常數顯著大于原料石墨,反映齣插層後石墨結晶度的嚴重劣化。膨脹石墨的結晶度稍差于原料石墨,但壓片處理後得到改善,更高溫度膨化的石墨改善更加明顯,且優于原料石墨,這預示著高溫膨化石墨的應用可塑性更彊,具有更好的應用前景。
팽창석묵시중요적공업응용재료,단기미관형모、성분여정체결구수팽창배솔적변화규률인식잉불족。선택 H 2 SO4+HNO3+KMnO4+FeCl3작위삽층양화체계,통과대린편원료석묵화학양화제비출가팽창석묵,분별재400℃、600℃、800℃、1000℃하팽화처리획득불동적팽창석묵。침대상술궤충석묵,채용 OM、SEM、EDS、XRD등기술대비연구료기형모、성분여결구적변화。결과표명,원료석묵、가팽창석묵여팽창석묵분별정현층편상、습추상화연충상적미관형모,삽층물주요유 S 여 O 조성,팽창석묵적 S 여 O 함량현저저우가팽창석묵,차기함량수착팽화온도제고축점강저。저사석묵구유상동적밀배륙방결구,기중가팽창석묵적정격상수현저대우원료석묵,반영출삽층후석묵결정도적엄중열화。팽창석묵적결정도초차우원료석묵,단압편처리후득도개선,경고온도팽화적석묵개선경가명현,차우우원료석묵,저예시착고온팽화석묵적응용가소성경강,구유경호적응용전경。
Expanded graphite (EG)is a type of material with significant industrial applications,but it is neces-sary to grasp the insight into the change of the morphology,composition and crystal structure as its expanding ratio. Different EGs were achieved by the expansion of expansible graphite (EBG),at 400 ℃,600 ℃,800 ℃ and 1000 ℃respectively,which was derived from chemical oxidation of raw flake graphite (RFG)with H2 SO4 +HNO3 +KMnO4 +FeCl3 as the intercalating and oxidizing system.These different graphites were investigated through the combination of OM,SEM,EDS and XRD techniques.It is shown that the RFG,EBG and EG were formed into lamellar,wrinkle and worm-like shapes respectively.The intercalation agents mainly consisting of S and O were substantially more abundant in the EBG than in the EGs,and meanwhile the contents of S and O in the EGs decreased gradually as the in-crease of expanding temperature applied.Among all these graphites formed into a hcp structure,the crystallinity of the RFG was distinctly better than that of the EBG affected by the intercalation while the crystal lattice constant of the former was much smaller than that of the latter;the crystallinities of the EGs were inferior to that of the RFG,but were able to promote after being suppressed to be higher than the latter and the promoted crystallizing quality became higher and higher when increasing the expansion temperature,predicting that the EG produced by high temperature expansion would possess improved fabricability for broader perspective application.
