Less than five years ago, the mining of olivine sand ceased in the U.S., leaving North American metalcasters looking for alternative sources. Some chose to import olivine sand from Norway, though the increased shipping costs when compared to a domestic supplier made this an expensive option.
For voestalpine Nortraks metalcasting facility in Decatur, Illinois, importing its olivine sand more than doubled in cost, from $140 per ton in 2011 to $280 in 2012. The facilitys flaskless molding system for manganese steel trackwork castings relied on new olivine facing sand for surface quality and reclaimed olivine/silica backing sand to minimize costs. Plant expansion plans were developed to increase production by nearly 60% in the short-term and 115% in the long-term.
voestalpine Nortrak contacted an engineering firm (GEMCO, Son, Netherlands) that had installed a turnkey casting facility in 2010 for a company site in France. Company officials hoped the project for the Decatur site could be partially paid for with cost savings realized from an improved sand molding system.
Figure 1 shows the sand, treatment costs and investment requirements for each scenario. The furan bonded chromite/silica system offered the best payback. Although chromite costs about double the high cost of silica, the ability to magnetically separate chromite from silica and the high reclamation rate associated with furan binder made this system the low-cost choice.
In addition to the cost benefits associated with the switch, voestalpine Nortrak also could reduce its landfill contribution by increasing reclamation, which would prove environmentally responsible. Figure 2 contains a schematic showing the sand flow diagram for this system.
Initial trials with furan bonded chromite revealed some unexpected cure time issues. These issues were resolved and reduced concerns about cracking associated with the furan binder system. voestalpine Nortrak also made several trackwork casting molds with segments faced with 200-lb. batches of furan bonded chromite that produced good surface quality.
The goal was to be making furan bonded chromite/silica molds with reclamation by April 2014, while continuing full production. The new molding lines required relocating the plastic injection equipment, pattern shop and manganese casting processing from cleaning through shipping. voestalpine Nortrak arranged for the new core mixer (120 lbs./min.) to be delivered by August 2013 to increase the scale of the molding trials and be able to run small trackwork molds with furan bonded new chromite facing and furan bonded new silica backing.
The project timeline for the sand system changeover was initially estimated to take roughly seven months from project approval, though it ended up requiring a full calendar year The project delays were mostly due to infrastructure issues not related to the sand system change.
Because the new olivine and reclaimed olivine/silica silos were planned to be used for reclaimed chromite and silica storage, the old sand system had to be shut down before the new one could operate. A two-week shutdown was scheduled for March 2014.
The 1,200 lb./min. mixer (Fig. 3) was installed just before the Christmas shutdown. Day bins were being filled by crane from supersacks to enable equipment debugging. Chromite/silica shakeout sand from these test molds was being segregated from the ECP-bonded olivine/silica production molds until the shutdown, when it could be processed through the new cooler/classifier for transport to the 35-ton silo located above the new magnetic separator. The magnetic separator is the crucial piece of equipment for the chromite/silica reclamation system. During the planned two-week shutdown, the following needed to happen:
Since start up, production goals have been achieved and the project has exceeded budgeted cost savings. The goal is to keep sand usage at or below the business plan with a new chromite sand addition rate of 12%, including new chromite cores. Currently, patterns are being faced with a blend of 9.6% new and 90.4% reclaimed chromite and backed with a blend of 11% new and 89% reclaimed silica. Current stable binder addition rate is 1% for both facing and backing sand. Acid levels vary between 25-45%, depending on resin and blending technique.
Revised Wash and Application Practices: Sporadic surface quality issues were discovered with the olivine/magnesite wash on the 90/10 reclaimed chromite/new chromite facing sand. The olivine/magnesite coating had been used successfully on the new olivine sand facing in the old sand system. voestalpine Nortrak tried a magnesia (MgO) coating, which improved surface quality as measured by substantially reduced cleaning times. In addition the following controls were implemented:
Lenoir Magnetic Separation System Monitoring: Other than the routine daily XRF checks, the separator is inspected daily for an even flow of sand from the distributor to the upper vibratory pan feeder. If the flow is obstructed by debris from the attrition mill, the blocks are cleared and the attrition mill is inspected for holes in the screens and plates.
A layer of fine dust and metallic particles builds up on the discharge lip of the lower vibratory pan feeder that can alter the presentation of sand to the phased array roll. The lower pan is inspected weekly and cleaned as needed.
The chromite/silica separation plate was set during start-up in March 2014 and has not been changed. The sand throughput was increased by increasing the vibration parameters of the two pan feeders and slightly opening the distributor gate. By using a mouse-hole type distributor gate, as shown in Figure 4, the process can tolerate more debris from the attrition mill without having to check for uniform flow multiple times per shift.
Mechanical Reclamation Control (Attrition Mill): The controls of the attrition mill have been upgraded to monitor sand availability and process time by adding three ammeters, which are used to measure the current in circuits. One meter is set to a high threshold, one is set to a low threshold and one verifies the vibrator motor is running. The mill starts and stops the shaker/conveyor and feed belt, and sleeps/wakes on a fixed time interval to check for sand. These upgrades mean operators no longer rely on optical switches for sand presence verification, and the mill does not shake itself empty for long intervals.
Troubleshooting: The new system has not totally been without problems. About six months after conversion, engineers found that the magnetic separator could be mistakenly switched to manual mode when sand level probes were deactivated. The magnetic separator would keep running when there was no room in the reclaimed silica sand silo to accept sand transports. The result was that the reclaimed silica bin could overflow into the reclaimed chromite bin, which then could be transported into the reclaimed chromite silo. Layers of reclaimed chromite contaminated with high levels of reclaimed silica could be used as facing sand. The end result was a small number of castings scrapped for severe metal reaction/penetration.
Narrow flangeway areas of trackwork castings required new chromite facing to avoid metal penetration. To achieve the cost savings of facing with a blend of 90/10 reclaimed/new chromite, engineers changed from an olivine/magnesite flow coating to a pure MgO flow coating, as noted previously. Figure 5 shows flangeway penetration with the 90/10 reclaimed/new chromite and the olivine/magnesite wash on the left, while the the improved surface achieved with the magnesia wash is on the right.
The Group has also a business unit dedicated to magnetic equipment for industrial operations such as lifting-handling and magnetic separation, marketed under the brands LENOIR in France and Mec Delachaux in Italy.
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