Development of quick setting cement capsule for effective reinforcement in freshly exposed roof in underground coal mines
IR@CIMFR: CSIR-Central Institute of Mining and Fuel Research, Dhanbad
View Archive InfoField | Value | |
Title |
Development of quick setting cement capsule for effective reinforcement in freshly exposed roof in underground coal mines
|
|
Creator |
Prasad, Shankar
Maity, S.N. Jaiprakash, K.C. |
|
Subject |
Support Development and Testing
|
|
Description |
Roof control is a major problem affecting safety and productivity in underground mines. Roof falls itself account for nearly 44% of the underground fatal accident. Freshly exposed roof. Particularly in developing galleries are more prone to accident. The supports being provided in the exposed roof are not effective to control the occurrence of falls. Now days roof bolts are gaining immense popularity as they are economical and effective under Indian strata conditions.
Full column conventional cement grouted bolts are generally giving an anchorage strength of 0.5 to 1.0 tonne in half hour after grouting. The above anchorage strength is not sufficient to hold the roof in the freshly exposed face. At present DGMS has made it compulsory to use such cement capsules which can provide minimum 3.01 anchorage strength after half an hour of installation.
Central mining research Institute (CMRI) has developed a composition free from chloride which has given an anchorage strength of more than 3.0 tonne within half an hour after grouting. The composition was experimented on trial basis in Dhansar, Kusunda, Godhar and Putki Balihari collieries of Bharat Coking Coal Ltd. (BCCL) and the technology has been released to Coal India Ltd. (CIL) from CMRI.
|
|
Publisher |
Books and Journals Private Ltd.,
|
|
Date |
2004-07
|
|
Type |
Article
PeerReviewed |
|
Identifier |
Prasad, Shankar and Maity, S.N. and Jaiprakash, K.C. (2004) Development of quick setting cement capsule for effective reinforcement in freshly exposed roof in underground coal mines. Journal of Mines, Metals & Fuels, 52 (7&8). pp. 122-124. ISSN 0022-2755
|
|
Relation |
http://cimfr.csircentral.net/335/
|
|