The general objective of machine learning is that the more the data you have for training, the better results you would get. This was important to state before i start answering the question.

Cross-validation helps us to avoid overfitting of the model and it also helps to increase the generalization accuracy which is the accuracy of the model on unseen future point. Now when you divide your dataset into dtrain and dtest there is one problem with that which is if your function that would be determined once you have trained your model needs both training and testing data, then you cannot say your accuracy on future unseen point would be same as the accuracy you got on your test data. This above argument can be stated by taking the example of k-nn where nearest neighbour is determined with the help of training data while the value of k is determined by test data.

But if you use CV then k could be determined by CV data and your test data can be considered as the unseen data point.

Now suppose you divide your dataset into 3 parts Dtrain(60%), Dcv(20%) and Dtest(20%). Now you have only 60% of data to train with. Now suppose you want to use all the 80% of your data to train then you can do this with the help of m-fold cross validation. In m-fold CV you divide your data into two parts Dtrain and Dtest (lets say 80 and 20).
lets say the value of m is 4 so you divide the training data into 4 equal parts randomly (d1,d2,d3,d4). Now start training the model by taking d1,d2,d3 as dtrain and d4 as cv and calculate the accuracy, in the next go take d2,d3,d4 as dtrain and d1 as cv and likewise take all possiblity for m=1, then for m=2 continue the same procedure. With this you use your entire 80% of your dtrain and your dtest can be considered as future unseen dataset.

The advantages are better and more use of your dtrain data, reduce the overfit and helps to give you sured generalization accuracy.
but on the downside the time complexity is high.
In your case the value of m is 10.

Hope this helps.