John Deere 300D, 1995 Technical Specifications
| SideShift or CenterMount | CM |
| SAE dig depth (mm) | 4210 |
| Reach @ ground level (mm) | 5250 |
| Loading height (mm) | 3290 |
| Bucket width, min-max (mm) | 305-914 |
| Bucket breakout (kgf) | 4550 |
| Dipper breakout (kgf) | 2460 |
| Slew System | Cylinder |
| Loader Bucket Capacity (m3) | 0.67 |
| Dump height (mm) | 2690 |
| Bucket width (mm) | 2057 |
| Bucket breakout (kgf) | 2710 |
| Engine Make & Model | JD 4-039D |
| Engine power (kW@rpm) | 45@2200 |
| Engine displacement (lit) | 3.91 |
| Number of cylinders | 4 |
| Pump type | Gear |
| Pump flow (lit/min) | 91 |
| Relief valve pressure (bar) | 186.2 |
| Transmission type | PS TC |
| Drive | 2WD/4WD |
| Speeds, FR | 44 |
| Maximum speed (km/h) | 32 |
| Ride control (Std/Opt/NA) | — |
| Travel length (mm) | 6850 |
| Travel height (mm) | 3670 |
| Width (mm) | 2230 |
| Turn circle radius without brakes (mm) | 10550 |
| Operating weight (kg) | 6358 |
| Model | 300D |
Introduction
The John Deere 300D, 1995 is a popular earth mover tool designed to handle heavy works such as digging, transferring materials, and loading. The equipment comes with a range of features and specifications that make it suitable for different applications. In this article, we will explore the advantages and disadvantages of some of the vital features and specifications of the John Deere 300D, 1995, and also provide real-world examples to illustrate the practical applications of these advantages and disadvantages.
Advantages and Disadvantages of SideShift or CenterMount
One of the critical features of the John Deere 300D, 1995 is the SideShift or CenterMount. The SideShift or CenterMount is an attachment to the equipment that enables it to move laterally, which makes it easier to maneuver over rough terrains and tight spaces. However, the use of SideShift or CenterMount may have some advantages and disadvantages.
One of the significant advantages of SideShift or CenterMount is its ability to increase the efficiency of the equipment. It improves the maneuverability of the machine, enabling it to move closer to the work area and reduce time and effort in turning.
On the flip side, SideShift or CenterMount may also have some disadvantages. The use of such attachments may change the weight distribution of the machine, leading to a reduction in the capacity of the machine to carry loads.
An example of the practical application of SideShift or CenterMount is in the construction of buildings. The use of SideShift or CenterMount on the John Deere 300D, 1995 makes it easier to navigate through narrow spaces and move closer to the site, making it easier for construction workers to transfer and load materials.
Advantages and Disadvantages of SAE Dig Depth and Reach @ Ground Level
SAE Dig Depth refers to the maximum depth of a hole that the equipment can dig. On the other hand, Reach @ Ground Level is the distance that the machine can reach horizontally. Understanding these specifications can help operators determine the suitability of the equipment for certain applications.
One of the significant advantages of the John Deere 300D, 1995’s high SAE Dig Depth is that it enables the machine to dig deeper holes, making it an ideal choice for construction and mining industries. Its high Reach @ Ground Level makes it easier for the equipment to transfer material across different points, increasing the efficiency of the equipment.
However, both SAE Dig Depth and Reach @ Ground Level may also have some disadvantages. The deeper a hole the equipment digs, the more time it takes to fill it up once the work is completed. Meanwhile, excessive reach may increase the load on the equipment, making it difficult to transport materials.
For practical application, a good example of using the SAE Dig Depth and Reach @ Ground Level is in mining where the equipment needs to dig deep holes to extract minerals. Having a high SAE Dig Depth and Reach @ Ground Level helps to improve the efficiency of the equipment, enabling it to reach deeper depths.
Advantages and Disadvantages of Loading Height
Loading Height is the height to which the equipment can transfer materials to a truck or another surface. It is an essential specification for machines that are used for loading purposes.
One of the advantages of the John Deere 300D, 1995’s high Loading Height is that it enables the equipment to transfer materials to a truck or other surfaces with ease. This saves time and effort on the part of the operator and reduces the risk of injuries when transferring materials.
On the other hand, high Loading Height can also be a disadvantage. It can increase the load on the equipment, making it difficult for the machine to move.
An example of the practical application of Loading Height is in construction where the equipment needs to transfer materials to a truck or other surfaces with ease.
Advantages and Disadvantages of Bucket Width, Min-Max
Bucket Width is the width of the bucket that the equipment uses for loading and transferring materials. It affects the amount of material the equipment can load at a time.
One of the advantages of John Deere 300D, 1995’s Min-Max bucket width is that it offers versatility in loading and transferring materials. The equipment can use a smaller bucket for less massive loads and a larger one for more massive loads.
However, using a bucket of different widths also has its disadvantages. A smaller bucket reduces the number of materials that the equipment can transfer at a time, making it less efficient. Using a larger bucket may put a load on the equipment.
One practical application of the bucket width, min-max is in construction, where the equipment needs to move different volumes of load over different terrains. With the John Deere 300D, 1995’s wide range of bucket widths, it is easier to match the equipment’s bucket width to the materials that need to be transferred.
Advantages and Disadvantages of Slew System
The Slewing System is a critical component of the John Deere 300D, 1995. It enables the machine to move its arm and bucket in different directions.
One of the significant advantages of the John Deere 300D, 1995’s Slewing System is that it improves the accuracy of the machine’s movements. The Slewing System enables the machine to move its arm and bucket in different directions, making it easier to operate it at different angles.
However, the use of Slewing System may also have some disadvantages. It adds to the overall weight of the equipment, making it difficult to transport.
An example of the practical application of a Slewing System is in mining where the machine needs to move its arm and bucket in different directions to extract minerals from different angles.
Advantages and Disadvantages of Loader Bucket Capacity and Dump Height
Loader Bucket Capacity refers to the amount of material the equipment can load into its bucket, while Dump Height is the maximum height that the equipment can tip the load out from its bucket.
One of the significant advantages of the John Deere 300D, 1995’s high Loader Bucket Capacity is that it enables the equipment to carry more materials at a time, making it more efficient. The high Dump Height ensures that the materials dropped from the bucket are done at a safe height, reducing the risk of accidents and injuries.
On the other hand, high Loader Bucket Capacity and Dump Height can be a disadvantage to the equipment. It can increase the overall weight of the equipment, making it difficult to transport.
An example of the practical application of Loader Bucket Capacity and Dump Height is in the construction industry where the equipment needs to move large volumes of materials over short distances. With the John Deere 300D, 1995’s high Loader Bucket Capacity and Dump Height, it is possible to achieve this task more efficiently.
Advantages and Disadvantages of Engine Make & Model, Engine Power and Engine Displacement
The engine and its specifications are critical components of the John Deere 300D, 1995. They determine the power and efficiency of the equipment, which affects its performance.
One of the significant advantages of the John Deere 300D, 1995’s engine is its high Engine Power. The high Engine Power ensures that the equipment can handle heavy loads and move materials over different terrains with ease. The high Engine Displacement also improves the efficiency of the equipment by reducing fuel consumption.
On the other hand, high Engine Power and Engine Displacement can be a disadvantage to the equipment. They can increase the overall weight of the equipment, making it difficult to transport
