| 1 - 16 |
The influence of particle bed configurations and confinements on particle breakage
Schonert K |
| 9 - 9 |
Special issue - Comminution - Preface
Forssberg E, Schonert K |
| 17 - 27 |
Flow behaviour of concentrated suspensions: Predictions and measurements
Mewis J |
| 29 - 42 |
Developments in wet classifiers
Heiskanen KGH |
| 43 - 58 |
Microscale fracture measurements with application to comminution
Middlemiss S, King RP |
| 59 - 69 |
Vibration signal emission from mono-size particle breakage
Zeng YG, Forssberg KSE |
| 71 - 76 |
The temperature and the infrared luminescence of the uvenil fracture surface of glassy polymer
Zarkhin LS, Chikunov OV, Salimonenko DA |
| 77 - 91 |
High velocity impact of particles on a target - An experimental study
Mebtoul M, Large JF, Guigon P |
| 93 - 100 |
Chemically assisted dry comminution of sericite - Dry comminution method accompanied by ion-exchange
Ikazaki F, Uchida K, Kamiya K, Kawai A, Gotoh A, Akiba E |
| 101 - 115 |
Modelling of interparticle breakage
Liu J, Schonert K |
| 117 - 131 |
Comminution of porous materials
Bevilacqua P, Ferrara G |
| 133 - 142 |
Some industrial experiences in modifying fine grinding environments for improved downstream product performance
Klimpel RR |
| 143 - 153 |
Liberation of composite waste from manufactured products
Loehr K, Melchiorre M |
| 155 - 165 |
Rheological characterization of mineral suspensions using a vibrating sphere and a rotational viscometer
Kawatra SK, Bakshi AK, Miller TE |
| 167 - 179 |
Mechano-chemical reaction of metallurgical grade silicon with gaseous hydrogenchloride in a vibration mill
Bade S, Hoffmann U, Schonert K |
| 181 - 185 |
Interrelation between fine grinding and mechanical activation
Boldyrev VV, Pavlov SV, Goldberg EL |
| 187 - 195 |
Grinding of mixture under mild condition for mechanochemical complexation
Senna M |
| 197 - 208 |
Reactivity of mechanically activated chalcopyrite
Tkacova K, Balaz P |
| 209 - 221 |
Financial implications of comminution system optimization
Herbst JA, Lo YC |
| 223 - 235 |
Modelling the new LKAB Kiruna concentrator with USIM PAC(c)
Soderman P, Storeng U, Samskog PO, Guyot O, Broussaud A |
| 237 - 248 |
Solution approaches to the dynamic population balance modeling of a closed grinding network
Williams MC, Meloy TP, Tarshan M |
| 249 - 259 |
Computer aided grinding circuit optimisation utilising a new mill efficiency curve
Espig D, Reinsch V |
| 261 - 271 |
The development of laboratory testing for autogenous grinding
Morsky P, Klemetti M, Knuutinen T, Kalapudas R, Koivistoinen P |
| 273 - 287 |
The use of data from small-scale mills and computer simulation techniques for scale-up and design of SAG mill circuits
Klymowsky IB, Rijkers ALM |
| 289 - 300 |
Modelling and simulation of large diameter autogeneous and semi-autogeneous mills
Morrell S, Finch WM, Kojovic T, Delboni H |
| 301 - 313 |
Wear in high-speed impact mills
Uuemois H, Kangur H, Veerus I |
| 315 - 326 |
Spiral jet mills: Hold up and scale up
Muller F, Polke R, Schadel G |
| 327 - 336 |
Development of a new jet mill for very fine mineral grinding
Alfano G, Saba P, Surracco M |
| 337 - 348 |
Supervisory control of autogenous grinding circuits
Borell M, Backstrom PO, Soderberg L |
| 349 - 360 |
A mechanistic state equation model for semiautogenous mills
Amestica R, Gonzalez GD, Menacho J, Barria J |
| 361 - 371 |
Ultrafine grinding in an air-swept ball mill circuit
Kolacz J, Sandvik KL |
| 373 - 382 |
Characterization of laboratory-scale tumbling mills
Steiner HJ |
| 383 - 393 |
The measurement of forces exerted by the load on liners in rotary mills (wet and dry)
Moys MH, Smit I, Stange W |
| 395 - 404 |
Grinding technical questions of producing composite cement
Opoczky L |
| 405 - 412 |
An industrial application of multivariable linear quadratic control to a cement mill
vanBreusegem V, Chen L, Bastin G, Wertz V, Werbrouck V, dePierpont C |
| 413 - 424 |
Simulation of ball behavior in a vibration mill in relation with its grinding rate: Effects of fractional ball filling and liquid viscosity
Yokoyama T, Tamura K, Usui H, Jimbo G |
| 425 - 435 |
Grinding mechanism of centrifugal mills - A simulation study based on the discrete element method
Inoue T, Okaya K |
| 437 - 446 |
The outer mechanics of the eccentric vibration mill
Beenken W, Gock E, Kurrer KE |
| 447 - 459 |
Optimization of stone-quarry technologies
Csoke B, Petho S, Foldesi J, Meszaros L |
| 461 - 469 |
New comminution applications using hydrocone crushers with setting regulation in real time
Svensson A, Hedvall P, Fjaestad M |
| 471 - 483 |
Technology improvements of crushing process in Majdanpek Copper Mine
Grujic MM |
| 485 - 495 |
Ultra fine grinding in a two stage rotor impact mill
Drogemeier R, Leschonski K |
| 497 - 506 |
Dynamic modeling of a closed loop jet mill
Gommeren HJC, Heitzmann DA, Kramer HJM, Heiskanen K, Scarlett B |
| 507 - 519 |
Performance of a fluidized bed jet mill as a function of operating parameters
Benz M, Herold H, Ulfik B |
| 521 - 537 |
Confined particle bed comminution under compressive loads
Fuerstenau DW, Gutsche O, Kapur PC |
| 539 - 559 |
Product size distribution and energy expenditure in grinding minerals and ores in high pressure rolls
Lim IL, Voigt W, Weller KR |
| 561 - 568 |
Wear protection of surfaces from high pressure grinding rolls: Possibilities and limits
Oberheuser G |
| 569 - 581 |
Component wear in vertical spindle mills grinding coal
Sligar J |
| 583 - 595 |
Grinding of waste paper and rice hulls with the Szego Mill for use as plastics fillers
Molder T, Trass O |
| 597 - 606 |
A new grinding process: HOROMILL(R)
Cordonnier A |
| 607 - 615 |
Investigation of the grind limit in stirred-media milling
Cho H, Waters MA, Hogg R |
| 617 - 627 |
Energy distribution and particle trajectories in a grinding chamber of a stirred ball mill
Blecher L, Schwedes J |
| 629 - 640 |
Investigations into the process dynamic and control of a laboratory agitator bead mill
Bernhardt P |
| 641 - 652 |
Power predictions for a pilot scale stirred ball mill
Gao MW, Forssberg KSE, Weller KR |
| 653 - 661 |
Validation of a model of a stirred bead mill by comparing results obtained in batch and continuous mode grinding
Berthiaux H, Heitzmann D, Dodds JA |
| 663 - 672 |
Dimensioning a forced movement wet grinder with a MacCabe and Thiele construction
Clerc L, Ouammou M, Benhassaine A |
| 673 - 682 |
Kinetics of comminution in micro- and sub-micrometer ranges
Strazisar J, Runovc F |
| 683 - 702 |
Use of grinding and liberation models to simulate tower mill circuit performance in a lead/zinc concentrator to increase flotation recovery
Weller KR, Morrell S, Gottlieb P |
| 703 - 721 |
Some considerations regarding optimum flow fields for centrifugal air classification
Johansen ST, deSilva SR |
| 723 - 731 |
CFS-HD: A new classifier for fine classification with high efficiency
Nied R |
| 733 - 741 |
Grinding circuit for fine particles in liquid suspensions with a new counter-flow centrifugal classifier
Bickert G, Stahl W, Bartsch R, Muller F |
| 743 - 749 |
Air core and roping in hydrocyclones
Concha F, Barrientos A, Montero J, Sampaio R |
