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New CASE Graders maximize Productivity and Performance

CASE Construction Equipment introduced two new C-Series motor graders. Available in both standard and All Wheel Drive (AWD) configurations, the 836C and 856C achieve Tier 4 Final compliance with Selective Catalytic Reduction (SCR) engine technology that increases fuel efficiency, keeps exhaust temperatures down and eliminates the need for regeneration.

The new models include:

  • 836C: 138 to 156 hp; 24,466-lb. operating weight.
  • 836C AWD: 138 to 156 hp; 27,128-lb. operating weight.
  • 856C: 173 to 190 hp; 33,966-lb. operating weight.
  • 856C AWD: 173 to 190 hp; 34,848-lb. operating weight.

Precision Performance – The motor graders include several innovative features that help simplify operation and allow operators to focus on precision and jobsite safety. An Ergopower transmission and torque converter provide smooth automatic shifting. An automatic differential lock combined with automatic no-spin power splitting instantly transfers torque from a slipping tire to one with more traction without any operator intervention.

The AWD models feature a “Creep Mode” that engages just the front wheels at the push of a button. This allows the machine to move at extremely slow speeds for finish grading and applications with exceptionally tight tolerances.

Advanced Hydraulics – The 836C and 856C motor graders feature one of the most intelligent high-precision load-sensing hydraulic circuits available on the market. A direct-activated axial piston pump delivers only the required amount of hydraulic pressure where it is needed.

Direct-mounted hydraulic controls increase lever rigidity and reduce play in the system, giving the operator positive feedback and better control from the hydraulic system during precision applications.

Innovative Design – An exclusive A-frame drawbar provides superior stability due to its heavy-duty boxed frame design. The roller-mounted encapsulated circle is activated by internal gearing, which minimizes wear and increases the lifetime of its components.