Product Description

Product Description

High Speed Belt Tensioner with Tensioner Pulley Belt Tensioner Assembly OEM 96298799 96184932 96435138 96459042 for Chevrolet Alero 2.4L

Water Pump for BUICK
Water Pump for CADILLAC
Water Pump for CHEVROLET
Water Pump for DAEWOO
Water Pump for LADA
Water Pump for LOTUS
Water Pump for OPEL

All kinds of car water pumps can be produced for you. Welcome to your inquiry.

 

MIC NO.	REF&OEM NO	APPLICATION	YEAR	PHOTO
TB34OP8801	257815 CHEVROLET : 96184932 CHEVROLET : 96298799 CHEVROLET : 96435138 CHEVROLET : 96459042 DAEWOO : 96184932 DAEWOO : 96298799 DAEWOO : 96435138 DAEWOO : 96459042 OPEL : 134571 OPEL : 1340541 OPEL : 1340542 OPEL : 1340544 OPEL : 24412292 OPEL : 634571 OPEL : 9 0571 430 OPEL : 90448220 OPEL : 90505719 OPEL : 9 0571 129 SUZUKI : 9516085Z00	BUICK  SKYLARK 2.4 CADILLAC  BLS 2.0 T Flexpower CHEVROLET  ALERO 2.4 16V CHEVROLET  CAPTIVA (C100, C140) 2.4 CHEVROLET  EPICA (KL1_) 2.0 CHEVROLET  EVHangZhou 2.0 CHEVROLET  LACETTI (J200) 1.8 CHEVROLET  NUBIRA Estate 1.8 CHEVROLET  REZZO MPV (U100) 2.0 CHEVROLET  ZAFIRA (F75) 2.0 DAEWOO  EVHangZhou (KLAL) 2.0 DAEWOO  LEGANZA (KLAV) 2.0 16V DAEWOO  NUBIRA (J100) 2.0 16V DAEWOO  NUBIRA Saloon (J100) 2.0 16V DAEWOO  NUBIRA Saloon (J200) 1.8 DAEWOO  NUBIRA Wagon (J100) 1.6 16V DAEWOO  NUBIRA Wagon (J200) 1.8 DAEWOO  REZZO (U100) 2.0 LADA  110 (2110) 2.0 i (21106) LOTUS  EUROPA S 2.0 Turbo OPEL  ANTARA (L07) 2.4 OPEL  ASTRA F (T92) 1.4 (F19, M19) OPEL  ASTRA F (T92) 1.6 (F19, M19) OPEL  ASTRA F (T92) 1.8 i (F19, M19) OPEL  ASTRA F (T92) 2.0 i (F19, M19) OPEL  ASTRA F CLASSIC Estate (T92) 1.6 i 16V (F35, M35) OPEL  ASTRA F CLASSIC Hatchback (T92) 1.6 i 16V (F08, M08, F68, M68) OPEL  ASTRA F CLASSIC Saloon (T92) 1.6 i 16V (F19, M19) OPEL  ASTRA F Convertible (T92) 1.4 i 16V OPEL  ASTRA F Convertible (T92) 1.6 i OPEL  ASTRA F Convertible (T92) 1.8 i 16V OPEL  ASTRA F Convertible (T92) 2.0 i OPEL  ASTRA F Estate (T92) 1.4 (F35, M35) OPEL  ASTRA F Estate (T92) 1.6 (F35, M35) OPEL  ASTRA F Estate (T92) 1.8 i (F35, M35) OPEL  ASTRA F Estate (T92) 2.0 i (F35, M35) OPEL  ASTRA F Hatchback (T92) 1.4 (F08, M08, F68, M68) OPEL  ASTRA F Hatchback (T92) 1.6 (F08, M08, F68, M68) OPEL  ASTRA F Hatchback (T92) 1.8 i (F08, M08, F68, M68) OPEL  ASTRA F Hatchback (T92) 2.0 GSI 16V (F08, M08, F68, M68) OPEL  ASTRA F Van (T92) 1.6 i (F70) OPEL  ASTRA G Convertible (T98) 2.0 16V Turbo (F67) OPEL  ASTRA H (A04) 2.0 Turbo (L48) OPEL  CALIBRA A (C89) 2.0 i (M07) OPEL  COMBO (71_) 1.4 OPEL  CORSA B (S93) 1.4 i (F08, F68, M68) OPEL  CORSA B (S93) 1.6 GSI 16V (F08, F68, M68) OPEL  CORSA B Box (S93) 1.4 i (F08, W5L) OPEL  FRONTERA A (U92) 2.2 i (54MWL4) OPEL  FRONTERA A Sport (U92) 2.0 i (52SUD2, 55SUD2) OPEL  FRONTERA B (U99) 2.2 i (6B_ZC, 6B_VF, 6B_66, 6B_76) OPEL  OMEGA B (V94) 2.0 (F69, M69, P69) OPEL  OMEGA B (V94) 2.2 16V (F69, M69, P69) OPEL  SINTRA (APV) 2.2 i 16V (OUN16, Y94) OPEL  SPEEDSTER (E01) 2.0 Turbo (R97) OPEL  TIGRA (S93) 1.4 16V (F07) OPEL  TIGRA (S93) 1.6 16V (F07) OPEL  VECTRA A (J89) 1.6 i (F19, M19) OPEL  VECTRA A (J89) 1.8 i Cat (F19, M19) OPEL  VECTRA A (J89) 2.0 i (F19, M19) OPEL  VECTRA A (J89) 2000 16V 4×4 (F19, M19) OPEL  VECTRA A Hatchback (J89) 1.6 i (F68, M68) OPEL  VECTRA A Hatchback (J89) 1.8 i (F68, M68) OPEL  VECTRA A Hatchback (J89) 2.0 i (F68, M68) OPEL  VECTRA B (J96) 1.6 i (F19) OPEL  VECTRA B (J96) 2.0 i (F19) OPEL  VECTRA B Estate (J96) 1.6 i (F35) OPEL  VECTRA B Estate (J96) 1.8 i 16V (F35) OPEL  VECTRA B Estate (J96) 2.0 i 16V (F35) OPEL  VECTRA B Hatchback (J96) 1.6 i (F68) OPEL  VECTRA B Hatchback (J96) 1.8 i 16V (F68) OPEL  VECTRA B Hatchback (J96) 2.0 i 16V (F68) OPEL  ZAFIRA / ZAFIRA FAMILY B (A05) 2.0 (M75) OPEL  ZAFIRA A MPV (T98) 2.0 OPC (F75)	1995-1999 2007- 1999-2004 2006- 2005-2006 2005- 2005- 2005-2009 2005- 2001-2012 2002- 2000-2004 1997- 2000- 2003- 1997-1999 2003- 2001-2004 1996-2000 2008- 2008-2011 1992-1998 1995-1998 1992-1998 1992-1998 1998-2005 1998-2002 1998-2002 1996-2001 1996-2001 1994-2001 1993-1994 1992-1998 1995-1998 1991-1998 1991-1994 1991-1993 1995-1998 1991-1998 1991-1998 1993-1996 2002-2005 2004-2571 1989-1996 1994-2001 1993-2000 1993-2000 1999-2000 1995-1998 1992-1998 1998-2004 1994-2000 1999-2003 1996-1999 2002-2006 1994-2000 1994-1998 1993-1995 1990-1995 1988-1990 1989-1990 1993-1995 1988-1990 1988-1990 1995-2002 1995-2002 1996-2000 1996-2000 1996-2000 1995-2003 2000-2003 1995-2000 2005-2571 2001-2005

 

Company Profile

Our Factory

Exhibition Shows

FAQ

Q1: Are you a trading company or manufacturer?
A1: We are industrial and export combination.

Q2: If there’s any quality problem, what would you do to guarantee our rights?
Q2: We seldom get complains from our customers so far. If it really happens, we’ll be responsible for that.

Q3: How long is your delivery time?
Q3: Around 30-45 days if no stock; Around 7 days when stock available.

Q4: What’s your sample policy? 
A4: Samples under $50.0 will be no charge, however the freight charge should be borne on buyer’s account.
Normal delivery time will be 4 days when stock available.

Choosing a V-Belt

When choosing a v-belt, you should understand the characteristics of each type and how they affect the performance of your machine. Listed below are the characteristics of Cogged, Narrow profile, and wide v-belts. Learn about the advantages and disadvantages of each. Choose the right v-belt for your machine to maximize its performance. Learn about the different materials used to make v-belts and how they influence the performance of your machine.

Narrow v-belts

While the flat belts are the most common type of v-belt, narrow v-belts are also a common option for industrial applications. These belts are similar to wedge belts in that they transmit heavier loads, but in a smaller form. Narrow v-belts are typically designated as 3V, 5V, and 8V and are denoted by their top width, multiplied by an eighth of an inch. Narrow v-belt sections conform to a wedge belt profile and are usually standardized by manufacturers. For example, section 3V corresponds to a wedge-type profile, while section 5V corresponds to SPB.
Both narrow and conventional v-belts are made of rubber stocks, which are generally composed of polymer or synthetic rubber. Fabric materials may be used to cover the stock material, adding a layer of reinforcement and protection. Narrow v-belts have a higher power rating than traditional V-belts. This is due to their greater depth-to-width ratio, which puts more of the reinforcing cord beneath the sheave.
The Wedge TLP ™ Narrow V-belt from Continental features a homogeneous one-piece design for maximum strength and long-term performance. These belts feature a high-denier cord and can handle significant horsepower increases. These belts are ideal for industrial applications. However, they are not as durable as their wider counterparts. The Wedge TLP is also an excellent choice for heavy-duty industrial applications.

Cogged v-belts

A key benefit of cogged v-belts is their ability to increase power output without sacrificing reliability. These belts are designed with precision-engineered cogs, which allow them to fit into smaller pulleys without reducing power output. Their raw-edge sidewalls and specially formulated EPDM rubber compound also help provide grip power. Cogged v-belts are manufactured by Carlisle(r) and offer several advantages over conventional belts.
The performance benefits of Cogged V-Belts are widely acknowledged. The company uses added-strength EPDM compounds in their belts to help reduce downtime and energy consumption. They are ideal for demanding applications such as power transmission. These belts are available in a variety of sizes and cross-sections. The section number of Cogged v-belts is H3V, H4V, and H5V.
The main difference between cogged v-belts and wedge belts is in the contact angle. While wedge and cogged v-belts have the same contact angle, the design and construction differs. Cogged v-belts typically include top and bottom layers of rubber, dampening rubber, tension cords, and top and bottom metal rings. Polychloroprene and polyester cords are common materials for the top and bottom layers, while aramid fibers are used for punishing applications.
Cogged v-belts are more flexible than traditional v-belts. Because of the slots on the belt surface, they reduce bending resistance. They are compatible with the same pulleys as standard v-belts, and run cooler and longer. They are also more efficient than standard V-belts. If you are considering a cogged V-belt for your application, it may be worth it to investigate the benefits of this belt type.

Wide v-belts

Variable-speed v-belts are wider in cross section than classical v-belts. The design of variable-speed v-belts varies depending on the manufacturer, but generally features a parallel top and bottom surface. This type of v-belt wedges tightly into its pulley’s grooves, reducing power loss and slippage. This type of v-belt is best suited to applications where speed changes frequently.
High-performance Wide V-belts feature a fibre-reinforced EPDM rubber base. The resulting supercharged EPDM mix is better suited for applications where the belts are subject to higher temperatures. This type of drive belt can also replace existing drives with ease and efficiency. CZPT offers a wide range of drive belts for all applications. For applications where slack is an issue, wrapped V-belts are a smart choice.
Narrow-V-belts, on the other hand, have a more favorable height-to-width ratio. This means that a narrow-V belt can be smaller while still providing the same power transmission. These belts also have a lower mass, which reduces centrifugal forces and enables higher speeds. However, narrow-V-belts are prone to wear, but are still a popular choice in many applications.
In addition to being more durable, wrapped-V-belts have fabric-coated edges for better heat resistance. The material covering wrapped-V-belts also protects them from damage from friction and external contaminants. Unlike their rigid counterparts, these wide-V-belts have an improved lifespan and require less maintenance and downtime. These are excellent alternatives to conventional v-belts. So, what are the benefits of Wide-V-belts?

Narrow profile v-belts

When it comes to choosing the best V-belt for your needs, it is important to understand the differences between narrow profile and classical. Narrow profile V-belts are generally narrower in cross-section than classical v-belts. This makes them ideal for high-speed compact drives and light-duty applications. The following section details the differences between narrow and classical v-belts.
The tensile cords, or “cords,” are embedded into the rubber compound. These cords are the main power-transmitting component of a narrow profile v-belt. The tension cords are located at the pitch diameter of the belt cross-section and increase the tensile strength. They are typically made of steel, aramid fibers, or polyester. The core is usually made of polyurethane, but other materials can be used.
When measuring the v-belt’s width, it is important to understand the various sign-codes. Some v-belts have the wrong sign-coding schema. For example, a classical profile belt should be read as Lw = 3522 mm, while a narrow profile belt should be read as La=3553mm. A narrow profile v-belt has a steeper side-wall, which increases the wedging action. Moreover, the narrow profile v-belt has higher load capacity.
Despite their name, narrow profile v-belts are the most widely used and versatile type of v-belts. They are also the easiest to install. Their general size is similar to that of a wedge, and their number is derived from their numerical prefix. A narrow profile v-belt with a 3L300 part number is 3/8″ wide and 300.0 inches long.

Wide profile v-belts

Wide profile v-belts are designed for heavy-duty applications where extreme performance is required. They are ideal for such applications due to their high-flexural strength and shock-resistance. They also come with many benefits, including good noise-reduction, increased sturdiness, and easy maintenance. This article explores the features of wide profile v-belts and how they can benefit your business.
Classical v-belts have an internal dimensional metric marking called the “CZPT.” This identifies each specific belt. Generally, this number is a combination of the normal profile size designation letter and the internal length in inches. The inside length of the v-belt is indicated on the index of the v-belt. To begin installing the v-belt, mark the floor where it will be hung. Tape the end stop marker to the first stick.
Narrow v-belts are narrower than standard wide v-belts. They are also available in raw-edge cogged profiles and are intended for light-duty applications. Narrow V-belts are also available in 4 sizes. Compared to standard wide profile v-belts, narrow v-belts are most appropriate for high-speed, compact drives. However, wide profile v-belts are generally longer than narrow V-belts.
A v-belt is composed of different types of rubber and reinforcements. It undergoes tensile and compressive stresses on both sides. The top side of a v-belt experiences longitudinal tensile force, while the bottom side is subjected to compression against a pulley. Moreover, the included angle of a v-belt section is 40 deg. Various types of v-belts are available according to their cross-sections and performance specifications.

Standard v-belts

If you are installing v-belts, you must know the right way to measure them. Many v-belts are mislabelled as classic or SPA. If you are unsure of which 1 to choose, you can refer to the standard v-belts index. The basic way to measure v-belts is by using a measuring tape or a cable tie. Using the right technique will ensure you get the right length.
A well-engineered V-belt is made from an elastomer core, which is a material that is resistant to abrasion. The elastomer core is usually composed of polyurethane, which has excellent flexural strength and shock resistance. In addition to the elastomer core, a fabric cover protects the core from wear and environmental forces. Its fabric cover is treated to form a chemical bond with the belt core, which increases the fabric’s resistance to constant bending.
The cross-section of a standard V-belt is commonly described as a trapezium, with its top and bottom sides parallel. Knowing the cross-section of a standard V-belt is essential in matching it with a pulley. It is also important to know how the v-belt is positioned on a pulley and how to select the right belt for the job.