Product Description : - Eco-friendly Ink (Non solvent, Soy ink) - High density with bright color. - Excellent print production with Emulsifiability. - Excellent POST PRESS. Features : " - High density Ink. - Excellent Dot Printing. - Fast Drying." Usage : - Sheet fed paper printing.
Product Description : - High density, Excellent printing workablity. - Excellent low temperture drying. - Cost effective Featurtes : - High density Ink - Excellent Dot Printing - Excellent low temperture drying.
Product Description : - Eco-friendly Ink (Soy ink) - Excellent print production with Emulsifiability. - Cost effective. Features : - High density Ink - Excellent transferability - Excellent print workability. Usage : - Web fed newpaper printing.
There are two types of Ferro-nickel slags that we have as below. Both products are manufactured in Korea and waiting for your offers. Since details such as Incoterms, payment terms, price, volume are subject to further discussion, please contact me through mail first. 1) Ferro nickel slag (which is generated after refining at furnace) -. Contents : NiO : 4-6% / Sio2 : 20-25% / Cao : 25 -30% / MgO 2% / Fe: 17-22% / Al2O3 : 4-6% -. Application : Nickel source 2) Ferro nickel slag (which is manufactured during slag tapping) -. Contents : Sio2 : 50-55% / MgO : 30-35% / Fe : 6-7% / Al2O3 : 2% CaO : 0.5 / Mn : 0.3 -. Application : Sand-blasting, Molding sand, Abrasive, Aggregate etc.. I appreciate your efforts in advance. Best regards,
Pole Parts - Material : Aluminum - Film Coating to prevent corrosion - Groove for preventing the connected pipes from rotating and minimizing the total weight with the pipes solidified. Handle & Joint parts - Material : Plastic - More solid fixations by adopting the double fixing device with tightening and suspending devices connected. - Angle-adjusting device makes it more convenient to work under any condition. - 6 levels of working processes are available from the longest to the shortest. Use - For garden pruning and trimming - For forest industry
In automotive suspension, a control arm, also known as an A-arm, is a hinged suspension link between the chassis and the suspension upright or hub that carries the wheel. The inboard (chassis) end of a control arm is attached by a single pivot, usually a rubber bushing. It can thus control the position of the outboard end with only a single degree of freedom, maintaining the radial distance from the inboard mount. Although not deliberately free to move, the single bushing does not prevent the arm from moving back and forth; this motion is constrained by a separate link or radius rod. This is in contrast to the wishbone.
Stabilizer links act as components of auto suspensions, connecting several other parts that take much of the punishment as you pass over potholes and other road imperfections. Modern cars use segmented suspensions. Stabilizer bars, or sway bars, have stabilizer links. The stabilizer bar holds pairs of wheels connected, while stabilizer links hook this larger piece with arms that go up to the wheels themselves. Ball-joint connections enable turning and suspension travel.
In an automobile, ball joints are spherical bearings that connect the control arms to the steering knuckles. They are used on virtually every automobile made and work similarly to the ball-and-socket design of the human hip joint. A ball joint consists of a bearing stud and socket enclosed in a casing; all these parts are made of steel. The bearing stud is tapered and threaded, and it fits into a tapered hole in the steering knuckle.
Tie rod ends are the crucial meeting point between a vehicle's steering rack and steering knuckle. The rod end not only transmits the force from the steering rack to the wheels, but it also provides a pivot point for the steering to maintain its geometry. The rod end typically features a round end and has a threaded bolt perpendicular to it that is inserted into the knuckle. The rounded end also houses bearings that allow the bolt to pivot freely; this end is covered by a protective boot to keep dirt out. This design may look uncomplicated to the naked eye, but because it is so crucial to handling, the tolerances involved are very tight.
Equipped with a rack & pinion steering system as the steering gear mechanism. The steering moment from the steering wheel is transferred to the running wheels through the rack end. It absorbs road conditions and vibrations in order to stabilize vehicle handling. A ball joint is set at vehicle's side in order to cope with updowns of running wheel and turning motion from steering wheel. Connected to outer tie rod end it transfers steering moment it has wider pivot angle to cope with updowns and back-forward motions. By turns of rack end ball stud it can adjust toe-in alignment.
A control arm, commonly referred to as an A-arm, is a hinged suspension link used in automobile suspension that connects the chassis to the hub that supports the wheel. A control arm's inboard (chassis) end is connected to the body by a single pivot, which is typically a rubber bushing. Thus, it may maintain the radial separation from the inboard mount while controlling the position of the outboard end in just one degree of freedom. The arm can move back and forth even if it is not intended to do so; nevertheless, this motion is restricted by a different link or radius rod.
Stabilizer links serve as essential sections of car suspensions, joining a number of other components that bear the brunt of the stress when you drive over potholes and other ruts in the road. Segmented suspensions are used in modern vehicles. Stabilizer links are found on sway bars or stabilizers. While stabilizer links hook this larger component with arms that extend up to the wheels themselves, the stabilizer bar keeps pairs of wheels together. Ball joint connections allow for suspension travel and turning.
Ball joints are spherical bearings that combine the control arms and steering knuckles in a car. They function similarly to the ball-and-socket hip joint and are found on almost every car ever produced. All the components of a ball joint are constructed of steel and include a bearing stud, a socket, and a casing. The steering knuckle's tapered hole accepts the threaded and tapered bearing stud.
At the point where the control arm connects to the vehicle frame, the bushing pressed into the control arm eliminates vibration and noise. For a smooth ride and exceptional endurance, the thick rubber bushing strikes the perfect mix between elasticity and rigidity.
The critical interface between a car's steering rack and steering knuckle is the tie rod end. The rod end serves as a pivot point for the steering to retain its geometry in addition to transferring force from the steering rack to the wheels. The rod end normally has a round end and a threaded bolt that is put into the knuckle perpendicular to it. The rounded end also contains bearings that permit the bolt to revolve freely; a boot covers this end to prevent dirt from getting in. While this design may appear simple at first glance, the tolerances required are extremely fine because of how important it is to handling.
The critical interface between a car's steering rack and steering knuckle is the tie rod end. The rod end serves as a pivot point for the steering to retain its geometry in addition to transferring force from the steering rack to the wheels. The rod end normally has a round end and a threaded bolt that is put into the knuckle perpendicular to it. The rounded end also contains bearings that permit the bolt to revolve freely; a boot covers this end to prevent dirt from getting in. While this design may appear simple at first glance, the tolerances required are extremely fine because of how important it is to be handling.
Ball Joint Assembly Line, since we started our business as SJ Tech in July of 2017.
Torque Test Machine, since we started our business as SJ Tech in July of 2017.
Packing line, since we started our business as SJ Tech in July of 2017.
CNC Machine, since we started our business as SJ Tech in July of 2017.
