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Clark Testing

Trucking and Transportation CMS Testing

Predicative Maintenance Programs (PMP) for truck owners and truck fleet managers are essential for maximizing equipment reliability and optimizing equipment life cycles.   It is widely known that a dedicated PMP routine will improve equipment reliability, minimize unscheduled failures and reduce maintenance and repair

Diesel Engines

Diesel engine oil analysis is an economical method of monitoring engine health and lubricant condition.  It will help identify factors that are detrimental to your engine’s performance and lifespan.  Oil analysis provides data that show root causes or symptoms of issues that can cause lower performance or failure.

The source of most diesel engine issues and failure is contamination.  The damage from contamination can result from a single root cause or from a combination of factors causing wear and degradation on multiple levels.  The predominant diesel engine oil contaminants to monitor are glycol, fuel, soot, and water.

Recommended Test Package Includes:

  • ASTM D445 - Viscosity
  • ASTM D93 - Flash Point
  • ASTM D2709 - Water & Sediment
  • ADTM D5453, D2622, D129 - Sulfur
  • ASTM D613 - Cetane Number
  • ASTM D4052 - Density
  • Bio2

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  • ASTM D976 - Aromatic A
  • ASTM D1319 Aromatic B
  • ASTM D130 - Copper Strip
  • ASTM D86 - Distillation A
  • ASTM D1160 - Distillation B
  • ASTM D482 - Ash Content
  • Cloud Point

Hydraulic Fluid

Particulate contamination is the leading cause of machinery failure.   Uncontaminated hydraulic fluid will ensure continuous operation and help to avoid schedule interruptions.  Hydraulic system failure will often require the removal equipment from a truck fleet causing unscheduled downtime.

The cleanliness level of hydraulic fluids is determined by particle count.  The particle count test measures solid particle contaminants in the fluid sample.  Particle counts can be measured in accordance with various industry standards.   There are two rating systems that define fluid cleanliness: National Aerospace Standard (NAS 1638) and International Standards Organization (ISO 4406).

The NAS 1638 standard classifies the particle size into five distinct groups that include:

  •  5 to 15 microns
  • 15 to 25 microns
  • 25 to 50 microns
  • 50 to 100 microns
  • >100 microns

NAS 1638 categorizes contamination levels ranging on a scale from 0 to 12 (dirtiest) based on the number of particles per 100mL of fluid for each of the categories above.

ISO 4406, rates particles in three size classes instead of size ranges:

  •  >4 microns
  • >6 microns
  • >14 microns

 

The ISO code classifies contamination levels using three numbers, each of which represents a contaminant level based on the number of particles per 1mL of fluid for the corresponding size class (respectively larger than 4 microns, larger than 6 microns and larger than 14 microns).

Clark provides particle size testing in accordance with ASTM D6595. Particle count analysis includes the following test package. In addition to particle count, other typical test packages for hydraulic fluid include physical properties, wear properties oxidation/corrosion and moisture. The minimal cost of hydraulic fluid testing compared to the expense of equipment failure is a simple business case.

Recommended Test Package Includes:

  • ASTM D445 - Viscosity
  • ASTM D974, D664 - Acid Number
  • ASTM D4377 - Karl Fischer
  • ISO 4406 - Particle Count
  • ASTM  E2412 - FTIR
  • Wear Elements & Containments (Spec, XRF, ICP)

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Coolant Analysis

The condition of a truck engine is largely determined by the cleanliness of the engine oil in the crankcase, however another critical characteristic for engine operation is associated with the engine coolant.  A significant number of truck engine failures are attributed to coolant system failures.  The continuous development heavy-duty diesel engines with high efficiency, high temperature and variable material cooling properties creates challenges for engine cooling systems.

Testing coolants is an essential predictive maintenance program that works in tandem with condition monitoring programs to optimize reliability, reduce unscheduled downtime and avoid engine failure.   Regularly analyzing glycol will confirm potential need to replenish or replace coolant, determine if any contaminants have been introduced and assess the coolant protection for engine integrity.

Clark’s coolant testing package includes several ASTM test methods for alkalinity, freeze point, and pH level.  We are typically test particle count to determine if there is any debris in the cooling system.

Standard Test Packages Includes:

  • ASTM D5185 - ICP Spectroscopy
  • ASTM D4377 - Karl Fischer
  • ASTM D445 - Viscosity
  • ASTM  E2412 - FTIR
  • ASTM D664- Base Number

Transmission Fluid

Manual and automatic transmission fluids are affected by thermal conditions, gear loads and traffic variables. Harsh operating conditions can create significant challenges for transmission and gearbox fluids.  Regular analysis of transmission fluids will determine wear debris, contaminants and moisture. Heavy loads and high stress on the truck transmission system will have an effect on the transmission fluid thereby causing a thermal breakdown.

Under high load conditions, the breakdown or failure of transmission fluid will cause oxidation that produces a sludge or varnish in the gearbox. Left unchecked, these conditions will ultimately have an effect on the mechanical systems affecting performance and eventually cause gear failure.

Clark Labs has specialty gearbox testing services to measure gear wear performance, friction, oxidation and wear resistance. Our FZG Gear Lubricant Test evaluates anti-wear characteristics and load carrying capacities of lubricants. The FZG gear test rig simulates a misaligned gear set operating in a bath of lubricant subjected to 12 increasing torque load stages. Tooth-wear is examined between stages for scuffing or scoring to assess the fluids performance.

Standard Test Packages Includes:

  • ASTM D445 - Viscosity
  • ASTM D974, D664 - Acid Number
  • ASTM D4377 - Karl Fischer
  • ISO 4406 - Particle Count
  • PQ 90 - Wear Index
  • Wear Elements & Containments (Spec, XRF, ICP)

Premium Add: Ferrography

Fuel Testing

Diesel fuel testing is critical for ensuring quality control, specification validation and regulatory compliance. Diesel fuel or distillate oil testing can provide analysis of fuel quality by monitoring sulfur, trace metals, and biodiesel blends. Bulk storage of diesel fuel can sometimes compromise the integrity of fuel, Clark provides fuel sampling consultation and recommendations to ensure homogeneity and quality of the test sample.

Clark provides diesel fuel testing package in accordance with ASTM Standards. In addition to analyzing fuel quality, Clark’s diesel fuel test package provides analysis of cold weather conditions, containments and emission compliance. Our laboratory can also provide analysis of ultra-low sulfur diesel, fuel additives and biodiesel testing.

Standard Test Packages Includes:

  • ASTM D445 - Viscosity
  • ASTM D93 - Flash Point
  • ASTM D2709 - Water and Sediment
  • ASTM D5453, D2622, D129 - Sulfur
  • ASTM  D613 -  Cetane Number
  • ASTM D4052 - Density
  • ASTM D664- Base Number

Premium Add-On Tests Includes:

  • ASTM D976 - Aromatic A
  • ASTM D1319 - Aromatic B
  • ASTM D130 - Copper Strip
  • ASTM D86 - Distillation A
  • ASTM D1319 - Distillation B
  • ASTM D482 - Ash Content
  • ASTM - D2500 Cloud Point